tdesktop/Telegram/SourceFiles/ui/chat/chat_theme.cpp

1075 lines
31 KiB
C++

/*
This file is part of Telegram Desktop,
the official desktop application for the Telegram messaging service.
For license and copyright information please follow this link:
https://github.com/telegramdesktop/tdesktop/blob/master/LEGAL
*/
#include "ui/chat/chat_theme.h"
#include "ui/image/image_prepare.h"
#include "ui/power_saving.h"
#include "ui/ui_utility.h"
#include "ui/chat/message_bubble.h"
#include "ui/chat/chat_style.h"
#include "ui/color_contrast.h"
#include "ui/style/style_core_palette.h"
#include "ui/style/style_palette_colorizer.h"
#include <crl/crl_async.h>
#include <QtGui/QGuiApplication>
namespace Ui {
namespace {
constexpr auto kCacheBackgroundTimeout = 1 * crl::time(1000);
constexpr auto kCacheBackgroundFastTimeout = crl::time(200);
constexpr auto kBackgroundFadeDuration = crl::time(200);
constexpr auto kMinimumTiledSize = 512;
constexpr auto kMaxSize = 2960;
constexpr auto kMaxContrastValue = 21.;
constexpr auto kMinAcceptableContrast = 1.14;// 4.5;
[[nodiscard]] QColor DefaultBackgroundColor() {
return QColor(213, 223, 233);
}
[[nodiscard]] int ComputeRealRotation(const CacheBackgroundRequest &request) {
if (request.background.colors.size() < 3) {
return request.background.gradientRotation;
}
const auto doubled = (request.background.gradientRotation
+ request.gradientRotationAdd) % 720;
return (((doubled % 2) ? (doubled - 45) : doubled) / 2) % 360;
}
[[nodiscard]] double ComputeRealProgress(
const CacheBackgroundRequest &request) {
if (request.background.colors.size() < 3) {
return 1.;
}
const auto doubled = (request.background.gradientRotation
+ request.gradientRotationAdd) % 720;
return (doubled % 2) ? 0.5 : 1.;
}
[[nodiscard]] CacheBackgroundResult CacheBackgroundByRequest(
const CacheBackgroundRequest &request) {
Expects(!request.area.isEmpty());
const auto ratio = style::DevicePixelRatio();
const auto gradient = request.background.gradientForFill.isNull()
? QImage()
: (request.gradientRotationAdd != 0)
? Images::GenerateGradient(
request.background.gradientForFill.size(),
request.background.colors,
ComputeRealRotation(request),
ComputeRealProgress(request))
: request.background.gradientForFill;
if (request.background.isPattern
|| request.background.tile
|| request.background.prepared.isNull()) {
auto result = gradient.isNull()
? QImage(
request.area * ratio,
QImage::Format_ARGB32_Premultiplied)
: gradient.scaled(
request.area * ratio,
Qt::IgnoreAspectRatio,
Qt::SmoothTransformation);
result.setDevicePixelRatio(ratio);
if (!request.background.prepared.isNull()) {
QPainter p(&result);
if (!gradient.isNull()) {
if (request.background.patternOpacity >= 0.) {
p.setCompositionMode(QPainter::CompositionMode_SoftLight);
p.setOpacity(request.background.patternOpacity);
} else {
p.setCompositionMode(
QPainter::CompositionMode_DestinationIn);
}
}
const auto tiled = request.background.isPattern
? request.background.prepared.scaled(
request.area.height() * ratio,
request.area.height() * ratio,
Qt::KeepAspectRatio,
Qt::SmoothTransformation)
: request.background.preparedForTiled;
const auto w = tiled.width() / float(ratio);
const auto h = tiled.height() / float(ratio);
const auto cx = int(std::ceil(request.area.width() / w));
const auto cy = int(std::ceil(request.area.height() / h));
const auto rows = cy;
const auto cols = request.background.isPattern
? (((cx / 2) * 2) + 1)
: cx;
const auto xshift = request.background.isPattern
? (request.area.width() * ratio - cols * tiled.width()) / 2
: 0;
const auto useshift = xshift / float(ratio);
for (auto y = 0; y != rows; ++y) {
for (auto x = 0; x != cols; ++x) {
p.drawImage(QPointF(useshift + x * w, y * h), tiled);
}
}
if (!gradient.isNull()
&& request.background.patternOpacity < 0.
&& request.background.patternOpacity > -1.) {
p.setCompositionMode(QPainter::CompositionMode_SourceOver);
p.setOpacity(1. + request.background.patternOpacity);
p.fillRect(QRect(QPoint(), request.area), Qt::black);
}
}
return {
.image = std::move(result).convertToFormat(
QImage::Format_ARGB32_Premultiplied),
.gradient = gradient,
.area = request.area,
.waitingForNegativePattern
= request.background.waitingForNegativePattern()
};
} else {
const auto rects = ComputeChatBackgroundRects(
request.area,
request.background.prepared.size());
auto result = request.background.prepared.copy(rects.from).scaled(
rects.to.width() * style::DevicePixelRatio(),
rects.to.height() * style::DevicePixelRatio(),
Qt::IgnoreAspectRatio,
Qt::SmoothTransformation);
result.setDevicePixelRatio(style::DevicePixelRatio());
return {
.image = std::move(result).convertToFormat(
QImage::Format_ARGB32_Premultiplied),
.gradient = gradient,
.area = request.area,
.x = rects.to.x(),
.y = rects.to.y(),
};
}
}
[[nodiscard]] QImage PrepareBubblesBackground(
const ChatThemeBubblesData &data) {
if (data.colors.size() < 2) {
return QImage();
}
constexpr auto kSize = 512;
return Images::GenerateLinearGradient(QSize(kSize, kSize), data.colors);
}
} // namespace
bool operator==(const ChatThemeBackground &a, const ChatThemeBackground &b) {
return (a.key == b.key)
&& (a.prepared.cacheKey() == b.prepared.cacheKey())
&& (a.gradientForFill.cacheKey() == b.gradientForFill.cacheKey())
&& (a.tile == b.tile)
&& (a.patternOpacity == b.patternOpacity);
}
bool operator!=(const ChatThemeBackground &a, const ChatThemeBackground &b) {
return !(a == b);
}
bool operator==(
const CacheBackgroundRequest &a,
const CacheBackgroundRequest &b) {
return (a.background == b.background)
&& (a.area == b.area)
&& (a.gradientRotationAdd == b.gradientRotationAdd)
&& (a.gradientProgress == b.gradientProgress);
}
bool operator!=(
const CacheBackgroundRequest &a,
const CacheBackgroundRequest &b) {
return !(a == b);
}
CacheBackgroundResult CacheBackground(
const CacheBackgroundRequest &request) {
return CacheBackgroundByRequest(request);
}
CachedBackground::CachedBackground(CacheBackgroundResult &&result)
: pixmap(PixmapFromImage(std::move(result.image)))
, area(result.area)
, x(result.x)
, y(result.y)
, waitingForNegativePattern(result.waitingForNegativePattern) {
}
ChatTheme::ChatTheme() {
}
// Runs from background thread.
ChatTheme::ChatTheme(ChatThemeDescriptor &&descriptor)
: _key(descriptor.key)
, _palette(std::make_unique<style::palette>()) {
descriptor.preparePalette(*_palette);
setBackground(PrepareBackgroundImage(descriptor.backgroundData));
setBubblesBackground(PrepareBubblesBackground(descriptor.bubblesData));
adjustPalette(descriptor);
}
ChatTheme::~ChatTheme() = default;
void ChatTheme::adjustPalette(const ChatThemeDescriptor &descriptor) {
auto &p = *_palette;
const auto overrideOutBg = (descriptor.bubblesData.colors.size() == 1);
if (overrideOutBg) {
set(p.msgOutBg(), descriptor.bubblesData.colors.front());
}
const auto &data = descriptor.backgroundData;
const auto &background = data.colors;
const auto useImage = !data.isPattern
&& (!data.path.isEmpty() || !data.bytes.isEmpty());
if (useImage || !background.empty()) {
const auto average = useImage
? Ui::CountAverageColor(_mutableBackground.prepared)
: CountAverageColor(background);
adjust(p.msgServiceBg(), average);
adjust(p.msgServiceBgSelected(), average);
adjust(p.historyScrollBg(), average);
adjust(p.historyScrollBgOver(), average);
adjust(p.historyScrollBarBg(), average);
adjust(p.historyScrollBarBgOver(), average);
}
const auto bubblesAccent = descriptor.bubblesData.accent
? descriptor.bubblesData.accent
: (!descriptor.bubblesData.colors.empty())
? ThemeAdjustedColor(
p.msgOutReplyBarColor()->c,
CountAverageColor(descriptor.bubblesData.colors))
: std::optional<QColor>();
if (bubblesAccent) {
// First set hue/saturation the same for all those colors from accent.
const auto by = *bubblesAccent;
if (!overrideOutBg) {
adjust(p.msgOutBg(), by);
}
adjust(p.msgOutShadow(), by);
adjust(p.msgOutServiceFg(), by);
adjust(p.msgOutDateFg(), by);
adjust(p.msgFileThumbLinkOutFg(), by);
adjust(p.msgFileOutBg(), by);
adjust(p.msgOutReplyBarColor(), by);
adjust(p.msgWaveformOutActive(), by);
adjust(p.msgWaveformOutInactive(), by);
adjust(p.historyFileOutRadialFg(), by); // historyFileOutIconFg
adjust(p.mediaOutFg(), by);
adjust(p.historyLinkOutFg(), by);
adjust(p.msgOutMonoFg(), by);
adjust(p.historyOutIconFg(), by);
adjust(p.historySendingOutIconFg(), by);
adjust(p.historyCallArrowOutFg(), by);
adjust(p.historyFileOutIconFg(), by); // msgOutBg
// After make msgFileOutBg exact accent and adjust some others.
const auto colorizer = bubblesAccentColorizer(by);
adjust(p.msgOutServiceFg(), colorizer);
adjust(p.msgOutDateFg(), colorizer);
adjust(p.msgFileThumbLinkOutFg(), colorizer);
adjust(p.msgFileOutBg(), colorizer);
adjust(p.msgOutReplyBarColor(), colorizer);
adjust(p.msgWaveformOutActive(), colorizer);
adjust(p.msgWaveformOutInactive(), colorizer);
adjust(p.mediaOutFg(), colorizer);
adjust(p.historyLinkOutFg(), colorizer);
adjust(p.historyOutIconFg(), colorizer);
adjust(p.historySendingOutIconFg(), colorizer);
adjust(p.historyCallArrowOutFg(), colorizer);
if (!descriptor.basedOnDark) {
adjust(p.msgOutBgSelected(), by);
adjust(p.msgOutShadowSelected(), by);
adjust(p.msgOutServiceFgSelected(), by);
adjust(p.msgOutDateFgSelected(), by);
adjust(p.msgFileThumbLinkOutFgSelected(), by);
adjust(p.msgFileOutBgSelected(), by);
adjust(p.msgOutReplyBarSelColor(), by);
adjust(p.msgWaveformOutActiveSelected(), by);
adjust(p.msgWaveformOutInactiveSelected(), by);
adjust(p.historyFileOutRadialFgSelected(), by);
adjust(p.mediaOutFgSelected(), by);
adjust(p.historyLinkOutFgSelected(), by);
adjust(p.msgOutMonoFgSelected(), by);
adjust(p.historyOutIconFgSelected(), by);
// adjust(p.historySendingOutIconFgSelected(), by);
adjust(p.historyCallArrowOutFgSelected(), by);
adjust(p.historyFileOutIconFgSelected(), by); // msgOutBg
adjust(p.msgOutServiceFgSelected(), colorizer);
adjust(p.msgOutDateFgSelected(), colorizer);
adjust(p.msgFileThumbLinkOutFgSelected(), colorizer);
adjust(p.msgFileOutBgSelected(), colorizer);
adjust(p.msgOutReplyBarSelColor(), colorizer);
adjust(p.msgWaveformOutActiveSelected(), colorizer);
adjust(p.msgWaveformOutInactiveSelected(), colorizer);
adjust(p.mediaOutFgSelected(), colorizer);
adjust(p.historyLinkOutFgSelected(), colorizer);
adjust(p.historyOutIconFgSelected(), colorizer);
//adjust(p.historySendingOutIconFgSelected(), colorizer);
adjust(p.historyCallArrowOutFgSelected(), colorizer);
}
}
auto outBgColors = descriptor.bubblesData.colors;
if (outBgColors.empty()) {
outBgColors.push_back(p.msgOutBg()->c);
}
const auto colors = {
p.msgOutServiceFg(),
p.msgOutDateFg(),
p.msgFileThumbLinkOutFg(),
p.msgFileOutBg(),
p.msgOutReplyBarColor(),
p.msgWaveformOutActive(),
p.historyTextOutFg(),
p.mediaOutFg(),
p.historyLinkOutFg(),
p.msgOutMonoFg(),
p.historyOutIconFg(),
p.historyCallArrowOutFg(),
};
const auto minimal = [&](const QColor &with) {
auto result = kMaxContrastValue;
for (const auto &color : colors) {
result = std::min(result, Ui::CountContrast(color->c, with));
}
return result;
};
const auto withBg = [&](auto &&count) {
auto result = kMaxContrastValue;
for (const auto &bg : outBgColors) {
result = std::min(result, count(bg));
}
return result;
};
//const auto singleWithBg = [&](const QColor &c) {
// return withBg([&](const QColor &with) {
// return Ui::CountContrast(c, with);
// });
//};
if (withBg(minimal) < kMinAcceptableContrast) {
const auto white = QColor(255, 255, 255);
const auto black = QColor(0, 0, 0);
// This one always gives black :)
//const auto now = (singleWithBg(white) >= singleWithBg(black))
// ? white
// : black;
const auto now = descriptor.basedOnDark ? white : black;
for (const auto &color : colors) {
set(color, now);
}
}
}
style::colorizer ChatTheme::bubblesAccentColorizer(
const QColor &accent) const {
const auto color = [](const QColor &value) {
auto hue = 0;
auto saturation = 0;
auto lightness = 0;
value.getHsv(&hue, &saturation, &lightness);
return style::colorizer::Color{ hue, saturation, lightness };
};
return {
.hueThreshold = 255,
.was = color(_palette->msgFileOutBg()->c),
.now = color(accent),
};
}
void ChatTheme::set(const style::color &my, const QColor &color) {
auto r = 0, g = 0, b = 0, a = 0;
color.getRgb(&r, &g, &b, &a);
my.set(uchar(r), uchar(g), uchar(b), uchar(a));
}
void ChatTheme::adjust(const style::color &my, const QColor &by) {
set(my, ThemeAdjustedColor(my->c, by));
}
void ChatTheme::adjust(const style::color &my, const style::colorizer &by) {
if (const auto adjusted = style::colorize(my->c, by)) {
set(my, *adjusted);
}
}
void ChatTheme::setBackground(ChatThemeBackground &&background) {
_mutableBackground = std::move(background);
_backgroundState = {};
_backgroundNext = {};
_backgroundFade.stop();
if (_cacheBackgroundTimer) {
_cacheBackgroundTimer->cancel();
}
_repaintBackgroundRequests.fire({});
}
void ChatTheme::updateBackgroundImageFrom(ChatThemeBackground &&background) {
_mutableBackground.key = background.key;
_mutableBackground.prepared = std::move(background.prepared);
_mutableBackground.preparedForTiled = std::move(
background.preparedForTiled);
if (!_backgroundState.now.pixmap.isNull()) {
if (_cacheBackgroundTimer) {
_cacheBackgroundTimer->cancel();
}
cacheBackgroundNow();
} else {
_repaintBackgroundRequests.fire({});
}
}
ChatThemeKey ChatTheme::key() const {
return _key;
}
void ChatTheme::setBubblesBackground(QImage image) {
if (image.isNull() && _bubblesBackgroundPrepared.isNull()) {
return;
}
_bubblesBackgroundPrepared = std::move(image);
if (_bubblesBackgroundPrepared.isNull()) {
_bubblesBackgroundPattern = nullptr;
// setBubblesBackground called only from background thread.
//_repaintBackgroundRequests.fire({});
return;
}
_bubblesBackground = CacheBackground({
.background = {
.prepared = _bubblesBackgroundPrepared,
},
.area = (_bubblesBackground.area.isEmpty()
? _bubblesBackgroundPrepared.size()
: _bubblesBackground.area),
});
if (!_bubblesBackgroundPattern) {
_bubblesBackgroundPattern = PrepareBubblePattern(palette());
}
_bubblesBackgroundPattern->pixmap = _bubblesBackground.pixmap;
// setBubblesBackground called only from background thread.
//_repaintBackgroundRequests.fire({});
}
void ChatTheme::finishCreateOnMain() {
if (_bubblesBackgroundPattern) {
FinishBubblePatternOnMain(_bubblesBackgroundPattern.get());
}
}
ChatPaintContext ChatTheme::preparePaintContext(
not_null<const ChatStyle*> st,
QRect viewport,
QRect clip,
bool paused) {
const auto area = viewport.size();
const auto now = crl::now();
if (!_bubblesBackgroundPrepared.isNull()
&& _bubblesBackground.area != area) {
if (!_cacheBubblesTimer) {
_cacheBubblesTimer.emplace([=] { cacheBubbles(); });
}
if (_cacheBubblesArea != area
|| (!_cacheBubblesTimer->isActive()
&& !_bubblesCachingRequest)) {
_cacheBubblesArea = area;
_lastBubblesAreaChangeTime = now;
_cacheBubblesTimer->callOnce(kCacheBackgroundFastTimeout);
}
}
return {
.st = st,
.bubblesPattern = _bubblesBackgroundPattern.get(),
.viewport = viewport,
.clip = clip,
.paused = paused,
.now = now,
};
}
const BackgroundState &ChatTheme::backgroundState(QSize area) {
if (!_cacheBackgroundTimer) {
_cacheBackgroundTimer.emplace([=] { cacheBackground(); });
}
_backgroundState.shown = _backgroundFade.value(1.);
if (_backgroundState.now.pixmap.isNull()
&& !background().gradientForFill.isNull()) {
// We don't support direct painting of patterned gradients.
// So we need to sync-generate cache image here.
_cacheBackgroundArea = area;
setCachedBackground(CacheBackground(cacheBackgroundRequest(area)));
_cacheBackgroundTimer->cancel();
} else if (_backgroundState.now.area != area) {
if (_cacheBackgroundArea != area
|| (!_cacheBackgroundTimer->isActive()
&& !_backgroundCachingRequest)) {
_cacheBackgroundArea = area;
_lastBackgroundAreaChangeTime = crl::now();
_cacheBackgroundTimer->callOnce(kCacheBackgroundFastTimeout);
}
}
generateNextBackgroundRotation();
return _backgroundState;
}
void ChatTheme::clearBackgroundState() {
_backgroundState = BackgroundState();
_backgroundFade.stop();
}
bool ChatTheme::readyForBackgroundRotation() const {
Expects(_cacheBackgroundTimer.has_value());
return !On(PowerSaving::kChatBackground)
&& !_backgroundFade.animating()
&& !_cacheBackgroundTimer->isActive()
&& !_backgroundState.now.pixmap.isNull();
}
void ChatTheme::generateNextBackgroundRotation() {
if (_backgroundCachingRequest
|| !_backgroundNext.image.isNull()
|| !readyForBackgroundRotation()
|| background().colors.size() < 3) {
return;
}
constexpr auto kAddRotationDoubled = (720 - 45);
const auto request = cacheBackgroundRequest(
_backgroundState.now.area,
kAddRotationDoubled);
if (!request) {
return;
}
cacheBackgroundAsync(request, [=](CacheBackgroundResult &&result) {
const auto forRequest = base::take(_backgroundCachingRequest);
if (!readyForBackgroundRotation()) {
return;
}
const auto request = cacheBackgroundRequest(
_backgroundState.now.area,
kAddRotationDoubled);
if (forRequest == request) {
_mutableBackground.gradientRotation
= (_mutableBackground.gradientRotation
+ kAddRotationDoubled) % 720;
_backgroundNext = std::move(result);
}
});
}
auto ChatTheme::cacheBackgroundRequest(QSize area, int addRotation) const
-> CacheBackgroundRequest {
if (background().colorForFill) {
return {};
}
return {
.background = background(),
.area = area,
.gradientRotationAdd = addRotation,
};
}
void ChatTheme::cacheBackground() {
Expects(_cacheBackgroundTimer.has_value());
const auto now = crl::now();
if (now - _lastBackgroundAreaChangeTime < kCacheBackgroundTimeout
&& QGuiApplication::mouseButtons() != 0) {
_cacheBackgroundTimer->callOnce(kCacheBackgroundFastTimeout);
return;
}
cacheBackgroundNow();
}
void ChatTheme::cacheBackgroundNow() {
if (!_backgroundCachingRequest) {
if (const auto request = cacheBackgroundRequest(
_cacheBackgroundArea)) {
cacheBackgroundAsync(request);
}
}
}
void ChatTheme::cacheBackgroundAsync(
const CacheBackgroundRequest &request,
Fn<void(CacheBackgroundResult&&)> done) {
_backgroundCachingRequest = request;
const auto weak = base::make_weak(this);
crl::async([=] {
if (!weak) {
return;
}
crl::on_main(weak, [=, result = CacheBackground(request)]() mutable {
if (done) {
done(std::move(result));
} else if (const auto request = cacheBackgroundRequest(
_cacheBackgroundArea)) {
if (_backgroundCachingRequest != request) {
cacheBackgroundAsync(request);
} else {
_backgroundCachingRequest = {};
setCachedBackground(std::move(result));
}
}
});
});
}
void ChatTheme::setCachedBackground(CacheBackgroundResult &&cached) {
_backgroundNext = {};
if (background().gradientForFill.isNull()
|| _backgroundState.now.pixmap.isNull()
|| anim::Disabled()) {
_backgroundFade.stop();
_backgroundState.shown = 1.;
_backgroundState.now = std::move(cached);
return;
}
// #TODO themes compose several transitions.
_backgroundState.was = std::move(_backgroundState.now);
_backgroundState.now = std::move(cached);
_backgroundState.shown = 0.;
const auto callback = [=] {
if (!_backgroundFade.animating()) {
_backgroundState.was = {};
_backgroundState.shown = 1.;
}
_repaintBackgroundRequests.fire({});
};
_backgroundFade.start(
callback,
0.,
1.,
kBackgroundFadeDuration);
}
auto ChatTheme::cacheBubblesRequest(QSize area) const
-> CacheBackgroundRequest {
if (_bubblesBackgroundPrepared.isNull()) {
return {};
}
return {
.background = {
.gradientForFill = _bubblesBackgroundPrepared,
},
.area = area,
};
}
void ChatTheme::cacheBubbles() {
Expects(_cacheBubblesTimer.has_value());
const auto now = crl::now();
if (now - _lastBubblesAreaChangeTime < kCacheBackgroundTimeout
&& QGuiApplication::mouseButtons() != 0) {
_cacheBubblesTimer->callOnce(kCacheBackgroundFastTimeout);
return;
}
cacheBubblesNow();
}
void ChatTheme::cacheBubblesNow() {
if (!_bubblesCachingRequest) {
if (const auto request = cacheBackgroundRequest(
_cacheBubblesArea)) {
cacheBubblesAsync(request);
}
}
}
void ChatTheme::cacheBubblesAsync(
const CacheBackgroundRequest &request) {
_bubblesCachingRequest = request;
const auto weak = base::make_weak(this);
crl::async([=] {
if (!weak) {
return;
}
crl::on_main(weak, [=, result = CacheBackground(request)]() mutable {
if (const auto request = cacheBubblesRequest(
_cacheBubblesArea)) {
if (_bubblesCachingRequest != request) {
cacheBubblesAsync(request);
} else {
_bubblesCachingRequest = {};
_bubblesBackground = std::move(result);
_bubblesBackgroundPattern->pixmap
= _bubblesBackground.pixmap;
}
}
});
});
}
rpl::producer<> ChatTheme::repaintBackgroundRequests() const {
return _repaintBackgroundRequests.events();
}
void ChatTheme::rotateComplexGradientBackground() {
if (!_backgroundFade.animating() && !_backgroundNext.image.isNull()) {
if (_mutableBackground.gradientForFill.size()
== _backgroundNext.gradient.size()) {
_mutableBackground.gradientForFill
= std::move(_backgroundNext.gradient);
}
setCachedBackground(base::take(_backgroundNext));
}
}
ChatBackgroundRects ComputeChatBackgroundRects(
QSize fillSize,
QSize imageSize) {
if (uint64(imageSize.width()) * fillSize.height()
> uint64(imageSize.height()) * fillSize.width()) {
const auto pxsize = fillSize.height() / float64(imageSize.height());
auto takewidth = int(std::ceil(fillSize.width() / pxsize));
if (takewidth > imageSize.width()) {
takewidth = imageSize.width();
} else if ((imageSize.width() % 2) != (takewidth % 2)) {
++takewidth;
}
return {
.from = QRect(
(imageSize.width() - takewidth) / 2,
0,
takewidth,
imageSize.height()),
.to = QRect(
int((fillSize.width() - takewidth * pxsize) / 2.),
0,
int(std::ceil(takewidth * pxsize)),
fillSize.height()),
};
} else {
const auto pxsize = fillSize.width() / float64(imageSize.width());
auto takeheight = int(std::ceil(fillSize.height() / pxsize));
if (takeheight > imageSize.height()) {
takeheight = imageSize.height();
} else if ((imageSize.height() % 2) != (takeheight % 2)) {
++takeheight;
}
return {
.from = QRect(
0,
(imageSize.height() - takeheight) / 2,
imageSize.width(),
takeheight),
.to = QRect(
0,
int((fillSize.height() - takeheight * pxsize) / 2.),
fillSize.width(),
int(std::ceil(takeheight * pxsize))),
};
}
}
QColor CountAverageColor(const QImage &image) {
Expects(image.format() == QImage::Format_ARGB32_Premultiplied
|| image.format() == QImage::Format_RGB32);
uint64 components[3] = { 0 };
const auto w = image.width();
const auto h = image.height();
const auto size = w * h;
if (const auto pix = image.constBits()) {
for (auto i = 0, l = size * 4; i != l; i += 4) {
components[2] += pix[i + 0];
components[1] += pix[i + 1];
components[0] += pix[i + 2];
}
}
if (size) {
for (auto &component : components) {
component /= size;
}
}
return QColor(components[0], components[1], components[2]);
}
QColor CountAverageColor(const std::vector<QColor> &colors) {
Expects(colors.size() < (std::numeric_limits<int>::max() / 256));
int components[3] = { 0 };
auto r = 0;
auto g = 0;
auto b = 0;
for (const auto &color : colors) {
color.getRgb(&r, &g, &b);
components[0] += r;
components[1] += g;
components[2] += b;
}
if (const auto size = colors.size()) {
for (auto &component : components) {
component /= size;
}
}
return QColor(components[0], components[1], components[2]);
}
bool IsPatternInverted(
const std::vector<QColor> &background,
float64 patternOpacity) {
return (patternOpacity > 0.)
&& (CountAverageColor(background).toHsv().valueF() <= 0.3);
}
QColor ThemeAdjustedColor(QColor original, QColor background) {
return QColor::fromHslF(
background.hslHueF(),
background.hslSaturationF(),
original.lightnessF(),
original.alphaF()
).toRgb();
}
QImage PreprocessBackgroundImage(QImage image) {
if (image.isNull()) {
return image;
}
if (image.format() != QImage::Format_ARGB32_Premultiplied) {
image = std::move(image).convertToFormat(
QImage::Format_ARGB32_Premultiplied);
}
if (image.width() > 40 * image.height()) {
const auto width = 40 * image.height();
const auto height = image.height();
image = image.copy((image.width() - width) / 2, 0, width, height);
} else if (image.height() > 40 * image.width()) {
const auto width = image.width();
const auto height = 40 * image.width();
image = image.copy(0, (image.height() - height) / 2, width, height);
}
if (image.width() > kMaxSize || image.height() > kMaxSize) {
image = image.scaled(
kMaxSize,
kMaxSize,
Qt::KeepAspectRatio,
Qt::SmoothTransformation);
}
return image;
}
std::optional<QColor> CalculateImageMonoColor(const QImage &image) {
Expects(image.bytesPerLine() == 4 * image.width());
if (image.isNull()) {
return std::nullopt;
}
const auto bits = reinterpret_cast<const uint32*>(image.constBits());
const auto first = bits[0];
for (auto i = 0; i < image.width() * image.height(); i++) {
if (first != bits[i]) {
return std::nullopt;
}
}
return image.pixelColor(QPoint());
}
QImage PrepareImageForTiled(const QImage &prepared) {
const auto width = prepared.width();
const auto height = prepared.height();
const auto isSmallForTiled = (width > 0 && height > 0)
&& (width < kMinimumTiledSize || height < kMinimumTiledSize);
if (!isSmallForTiled) {
return prepared;
}
const auto repeatTimesX = (kMinimumTiledSize + width - 1) / width;
const auto repeatTimesY = (kMinimumTiledSize + height - 1) / height;
auto result = QImage(
width * repeatTimesX,
height * repeatTimesY,
QImage::Format_ARGB32_Premultiplied);
result.setDevicePixelRatio(prepared.devicePixelRatio());
auto imageForTiledBytes = result.bits();
auto bytesInLine = width * sizeof(uint32);
for (auto timesY = 0; timesY != repeatTimesY; ++timesY) {
auto imageBytes = prepared.constBits();
for (auto y = 0; y != height; ++y) {
for (auto timesX = 0; timesX != repeatTimesX; ++timesX) {
memcpy(imageForTiledBytes, imageBytes, bytesInLine);
imageForTiledBytes += bytesInLine;
}
imageBytes += prepared.bytesPerLine();
imageForTiledBytes += result.bytesPerLine() - (repeatTimesX * bytesInLine);
}
}
return result;
}
[[nodiscard]] QImage ReadBackgroundImage(
const QString &path,
const QByteArray &content,
bool gzipSvg) {
return Images::Read({
.path = path,
.content = content,
.maxSize = QSize(kMaxSize, kMaxSize),
.gzipSvg = gzipSvg,
}).image;
}
QImage GenerateBackgroundImage(
QSize size,
const std::vector<QColor> &bg,
int gradientRotation,
float64 patternOpacity,
Fn<void(QPainter&,bool)> drawPattern) {
auto result = bg.empty()
? Images::GenerateGradient(size, { DefaultBackgroundColor() })
: Images::GenerateGradient(size, bg, gradientRotation);
if (bg.size() > 1 && (!drawPattern || patternOpacity >= 0.)) {
result = Images::DitherImage(std::move(result));
}
if (drawPattern) {
auto p = QPainter(&result);
if (patternOpacity >= 0.) {
p.setCompositionMode(QPainter::CompositionMode_SoftLight);
p.setOpacity(patternOpacity);
} else {
p.setCompositionMode(QPainter::CompositionMode_DestinationIn);
}
drawPattern(p, IsPatternInverted(bg, patternOpacity));
if (patternOpacity < 0. && patternOpacity > -1.) {
p.setCompositionMode(QPainter::CompositionMode_SourceOver);
p.setOpacity(1. + patternOpacity);
p.fillRect(QRect{ QPoint(), size }, Qt::black);
}
}
return std::move(result).convertToFormat(
QImage::Format_ARGB32_Premultiplied);
}
QImage PreparePatternImage(
QImage pattern,
const std::vector<QColor> &bg,
int gradientRotation,
float64 patternOpacity) {
auto result = GenerateBackgroundImage(
pattern.size(),
bg,
gradientRotation,
patternOpacity,
[&](QPainter &p, bool inverted) {
if (inverted) {
pattern = InvertPatternImage(std::move(pattern));
}
p.drawImage(QRect(QPoint(), pattern.size()), pattern);
});
pattern = QImage();
return result;
}
QImage InvertPatternImage(QImage pattern) {
pattern = std::move(pattern).convertToFormat(
QImage::Format_ARGB32_Premultiplied);
const auto w = pattern.bytesPerLine() / 4;
auto ints = reinterpret_cast<uint32*>(pattern.bits());
for (auto y = 0, h = pattern.height(); y != h; ++y) {
for (auto x = 0; x != w; ++x) {
const auto value = (*ints >> 24);
*ints++ = (value << 24)
| (value << 16)
| (value << 8)
| value;
}
}
return pattern;
}
QImage PrepareBlurredBackground(QImage image) {
constexpr auto kSize = 900;
constexpr auto kRadius = 24;
if (image.width() > kSize || image.height() > kSize) {
image = image.scaled(
kSize,
kSize,
Qt::KeepAspectRatio,
Qt::SmoothTransformation);
}
return Images::BlurLargeImage(std::move(image), kRadius);
}
QImage GenerateDitheredGradient(
const std::vector<QColor> &colors,
int rotation) {
constexpr auto kSize = 512;
const auto size = QSize(kSize, kSize);
if (colors.empty()) {
return Images::GenerateGradient(size, { DefaultBackgroundColor() });
}
auto result = Images::GenerateGradient(size, colors, rotation);
if (colors.size() > 1) {
result = Images::DitherImage(std::move(result));
}
return result;
}
ChatThemeBackground PrepareBackgroundImage(
const ChatThemeBackgroundData &data) {
auto prepared = (data.isPattern || data.colors.empty())
? PreprocessBackgroundImage(
ReadBackgroundImage(data.path, data.bytes, data.gzipSvg))
: QImage();
if (data.isPattern && !prepared.isNull()) {
if (data.colors.size() < 2) {
prepared = PreparePatternImage(
std::move(prepared),
data.colors,
data.gradientRotation,
data.patternOpacity);
} else if (IsPatternInverted(data.colors, data.patternOpacity)) {
prepared = InvertPatternImage(std::move(prepared));
}
prepared.setDevicePixelRatio(style::DevicePixelRatio());
} else if (data.colors.empty()) {
prepared.setDevicePixelRatio(style::DevicePixelRatio());
}
if (!prepared.isNull()
&& !data.isPattern
&& data.forDarkMode
&& data.darkModeDimming > 0) {
const auto ratio = int(prepared.devicePixelRatio());
auto p = QPainter(&prepared);
p.fillRect(
QRect(0, 0, prepared.width() / ratio, prepared.height() / ratio),
QColor(0, 0, 0, 255 * data.darkModeDimming / 100));
}
const auto imageMonoColor = (data.colors.size() < 2)
? CalculateImageMonoColor(prepared)
: std::nullopt;
if (!prepared.isNull() && !data.isPattern && data.isBlurred) {
prepared = PrepareBlurredBackground(std::move(prepared));
}
auto gradientForFill = (data.generateGradient && data.colors.size() > 1)
? Ui::GenerateDitheredGradient(data.colors, data.gradientRotation)
: QImage();
return ChatThemeBackground{
.key = data.key,
.prepared = prepared,
.preparedForTiled = PrepareImageForTiled(prepared),
.gradientForFill = std::move(gradientForFill),
.colorForFill = (!prepared.isNull()
? imageMonoColor
: (data.colors.size() > 1 || data.colors.empty())
? std::nullopt
: std::make_optional(data.colors.front())),
.colors = data.colors,
.patternOpacity = data.patternOpacity,
.gradientRotation = data.generateGradient ? data.gradientRotation : 0,
.isPattern = data.isPattern,
};
}
} // namespace Window::Theme