tdesktop/Telegram/SourceFiles/settings/settings_calls.cpp

451 lines
13 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 "settings/settings_calls.h"
#include "settings/settings_common.h"
#include "ui/wrap/vertical_layout.h"
#include "ui/wrap/slide_wrap.h"
#include "ui/widgets/labels.h"
#include "ui/widgets/checkbox.h"
#include "ui/widgets/level_meter.h"
#include "ui/widgets/buttons.h"
#include "boxes/single_choice_box.h"
#include "boxes/confirm_box.h"
#include "platform/platform_specific.h"
#include "main/main_session.h"
#include "lang/lang_keys.h"
#include "layout.h"
#include "styles/style_settings.h"
#include "ui/widgets/continuous_sliders.h"
#include "window/window_session_controller.h"
#include "core/application.h"
#include "core/core_settings.h"
#include "calls/calls_instance.h"
#include "calls/calls_video_bubble.h"
#include "webrtc/webrtc_media_devices.h"
#include "webrtc/webrtc_video_track.h"
#include "webrtc/webrtc_audio_input_tester.h"
#include "webrtc/webrtc_create_adm.h" // Webrtc::Backend.
#include "tgcalls/VideoCaptureInterface.h"
#include "facades.h"
#include "app.h" // App::restart().
#include "styles/style_layers.h"
namespace Settings {
namespace {
using namespace Webrtc;
} // namespace
Calls::Calls(
QWidget *parent,
not_null<Window::SessionController*> controller)
: Section(parent)
, _controller(controller) {
setupContent();
requestPermissionAndStartTestingMicrophone();
}
Calls::~Calls() = default;
void Calls::sectionSaveChanges(FnMut<void()> done) {
if (_micTester) {
_micTester.reset();
}
done();
}
void Calls::setupContent() {
const auto content = Ui::CreateChild<Ui::VerticalLayout>(this);
const auto &settings = Core::App().settings();
const auto cameras = GetVideoInputList();
if (!cameras.empty()) {
const auto hasCall = (Core::App().calls().currentCall() != nullptr);
auto capturerOwner = Core::App().calls().getVideoCapture();
const auto capturer = capturerOwner.get();
content->lifetime().add([owner = std::move(capturerOwner)]{});
const auto track = content->lifetime().make_state<VideoTrack>(
(hasCall
? VideoState::Inactive
: VideoState::Active));
const auto currentCameraName = [&] {
const auto i = ranges::find(
cameras,
settings.callVideoInputDeviceId(),
&VideoInput::id);
return (i != end(cameras))
? i->name
: tr::lng_settings_call_device_default(tr::now);
}();
AddSkip(content);
AddSubsectionTitle(content, tr::lng_settings_call_camera());
AddButtonWithLabel(
content,
tr::lng_settings_call_input_device(),
rpl::single(
currentCameraName
) | rpl::then(
_cameraNameStream.events()
),
st::settingsButton
)->addClickHandler([=] {
const auto &devices = GetVideoInputList();
const auto options = ranges::view::concat(
ranges::view::single(tr::lng_settings_call_device_default(tr::now)),
devices | ranges::view::transform(&VideoInput::name)
) | ranges::to_vector;
const auto i = ranges::find(
devices,
Core::App().settings().callVideoInputDeviceId(),
&VideoInput::id);
const auto currentOption = (i != end(devices))
? int(i - begin(devices) + 1)
: 0;
const auto save = crl::guard(this, [=](int option) {
_cameraNameStream.fire_copy(options[option]);
const auto deviceId = option
? devices[option - 1].id
: "default";
capturer->switchToDevice(deviceId.toStdString());
Core::App().settings().setCallVideoInputDeviceId(deviceId);
Core::App().saveSettingsDelayed();
if (const auto call = Core::App().calls().currentCall()) {
call->setCurrentVideoDevice(deviceId);
}
});
Ui::show(Box<SingleChoiceBox>(
tr::lng_settings_call_camera(),
options,
currentOption,
save));
});
const auto bubbleWrap = content->add(object_ptr<Ui::RpWidget>(content));
const auto bubble = content->lifetime().make_state<::Calls::VideoBubble>(
bubbleWrap,
track);
const auto padding = st::settingsButton.padding.left();
const auto top = st::boxRoundShadow.extend.top();
const auto bottom = st::boxRoundShadow.extend.bottom();
bubbleWrap->widthValue(
) | rpl::filter([=](int width) {
return (width > 2 * padding + 1);
}) | rpl::start_with_next([=](int width) {
const auto use = (width - 2 * padding);
bubble->updateGeometry(
::Calls::VideoBubble::DragMode::None,
QRect(padding, top, use, (use * 480) / 640));
}, bubbleWrap->lifetime());
track->renderNextFrame(
) | rpl::start_with_next([=] {
const auto size = track->frameSize();
if (size.isEmpty() || Core::App().calls().currentCall()) {
return;
}
const auto width = bubbleWrap->width();
const auto use = (width - 2 * padding);
const auto height = std::min(
((use * size.height()) / size.width()),
(use * 480) / 640);
bubbleWrap->resize(width, top + height + bottom);
bubbleWrap->update();
}, bubbleWrap->lifetime());
Core::App().calls().currentCallValue(
) | rpl::start_with_next([=](::Calls::Call *value) {
if (value) {
track->setState(VideoState::Inactive);
bubbleWrap->resize(bubbleWrap->width(), 0);
} else {
capturer->setPreferredAspectRatio(0.);
track->setState(VideoState::Active);
capturer->setOutput(track->sink());
}
}, content->lifetime());
AddSkip(content);
AddDivider(content);
}
AddSkip(content);
AddSubsectionTitle(content, tr::lng_settings_call_section_output());
AddButtonWithLabel(
content,
tr::lng_settings_call_output_device(),
rpl::single(
CurrentAudioOutputName()
) | rpl::then(
_outputNameStream.events()
),
st::settingsButton
)->addClickHandler([=] {
Ui::show(ChooseAudioOutputBox(crl::guard(this, [=](
const QString &id,
const QString &name) {
_outputNameStream.fire_copy(name);
})));
});
AddSkip(content);
AddDivider(content);
AddSkip(content);
AddSubsectionTitle(content, tr::lng_settings_call_section_input());
AddButtonWithLabel(
content,
tr::lng_settings_call_input_device(),
rpl::single(
CurrentAudioInputName()
) | rpl::then(
_inputNameStream.events()
),
st::settingsButton
)->addClickHandler([=] {
Ui::show(ChooseAudioInputBox(crl::guard(this, [=](
const QString &id,
const QString &name) {
_inputNameStream.fire_copy(name);
if (_micTester) {
_micTester->setDeviceId(id);
}
})));
});
_micTestLevel = content->add(
object_ptr<Ui::LevelMeter>(
content,
st::defaultLevelMeter),
st::settingsLevelMeterPadding);
_micTestLevel->resize(QSize(0, st::defaultLevelMeter.height));
_levelUpdateTimer.setCallback([=] {
const auto was = _micLevel;
_micLevel = _micTester->getAndResetLevel();
_micLevelAnimation.start([=] {
_micTestLevel->setValue(_micLevelAnimation.value(_micLevel));
}, was, _micLevel, kMicTestAnimationDuration);
});
AddSkip(content);
AddDivider(content);
AddSkip(content);
AddSubsectionTitle(content, tr::lng_settings_call_section_other());
//#if defined Q_OS_MAC && !defined OS_MAC_STORE
// AddButton(
// content,
// tr::lng_settings_call_audio_ducking(),
// st::settingsButton
// )->toggleOn(
// rpl::single(settings.callAudioDuckingEnabled())
// )->toggledValue() | rpl::filter([](bool enabled) {
// return (enabled != Core::App().settings().callAudioDuckingEnabled());
// }) | rpl::start_with_next([=](bool enabled) {
// Core::App().settings().setCallAudioDuckingEnabled(enabled);
// Core::App().saveSettingsDelayed();
// if (const auto call = Core::App().calls().currentCall()) {
// call->setAudioDuckingEnabled(enabled);
// }
// }, content->lifetime());
//#endif // Q_OS_MAC && !OS_MAC_STORE
const auto backend = [&]() -> QString {
using namespace Webrtc;
switch (settings.callAudioBackend()) {
case Backend::OpenAL: return "OpenAL";
case Backend::ADM: return "WebRTC ADM";
case Backend::ADM2: return "WebRTC ADM2";
}
Unexpected("Value in backend.");
}();
AddButton(
content,
rpl::single("Call audio backend: " + backend),
st::settingsButton
)->addClickHandler([] {
Ui::show(ChooseAudioBackendBox());
});
AddButton(
content,
tr::lng_settings_call_open_system_prefs(),
st::settingsButton
)->addClickHandler([] {
const auto opened = Platform::OpenSystemSettings(
Platform::SystemSettingsType::Audio);
if (!opened) {
Ui::show(Box<InformBox>(tr::lng_linux_no_audio_prefs(tr::now)));
}
});
AddSkip(content);
Ui::ResizeFitChild(this, content);
}
void Calls::requestPermissionAndStartTestingMicrophone() {
const auto status = Platform::GetPermissionStatus(
Platform::PermissionType::Microphone);
if (status == Platform::PermissionStatus::Granted) {
startTestingMicrophone();
} else if (status == Platform::PermissionStatus::CanRequest) {
const auto startTestingChecked = crl::guard(this, [=](
Platform::PermissionStatus status) {
if (status == Platform::PermissionStatus::Granted) {
crl::on_main(crl::guard(this, [=] {
startTestingMicrophone();
}));
}
});
Platform::RequestPermission(
Platform::PermissionType::Microphone,
startTestingChecked);
} else {
const auto showSystemSettings = [] {
Platform::OpenSystemSettingsForPermission(
Platform::PermissionType::Microphone);
Ui::hideLayer();
};
Ui::show(Box<ConfirmBox>(
tr::lng_no_mic_permission(tr::now),
tr::lng_menu_settings(tr::now),
showSystemSettings));
}
}
void Calls::startTestingMicrophone() {
_levelUpdateTimer.callEach(kMicTestUpdateInterval);
_micTester = std::make_unique<AudioInputTester>(
Core::App().settings().callAudioBackend(),
Core::App().settings().callInputDeviceId());
}
QString CurrentAudioOutputName() {
const auto &settings = Core::App().settings();
const auto list = GetAudioOutputList(settings.callAudioBackend());
const auto i = ranges::find(
list,
settings.callOutputDeviceId(),
&AudioOutput::id);
return (i != end(list))
? i->name
: tr::lng_settings_call_device_default(tr::now);
}
QString CurrentAudioInputName() {
const auto &settings = Core::App().settings();
const auto list = GetAudioInputList(settings.callAudioBackend());
const auto i = ranges::find(
list,
settings.callInputDeviceId(),
&AudioInput::id);
return (i != end(list))
? i->name
: tr::lng_settings_call_device_default(tr::now);
}
object_ptr<SingleChoiceBox> ChooseAudioOutputBox(
Fn<void(QString id, QString name)> chosen,
const style::Checkbox *st,
const style::Radio *radioSt) {
const auto &settings = Core::App().settings();
const auto list = GetAudioOutputList(settings.callAudioBackend());
const auto options = ranges::view::concat(
ranges::view::single(tr::lng_settings_call_device_default(tr::now)),
list | ranges::view::transform(&AudioOutput::name)
) | ranges::to_vector;
const auto i = ranges::find(
list,
settings.callOutputDeviceId(),
&AudioOutput::id);
const auto currentOption = (i != end(list))
? int(i - begin(list) + 1)
: 0;
const auto save = [=](int option) {
const auto deviceId = option
? list[option - 1].id
: "default";
Core::App().calls().setCurrentAudioDevice(false, deviceId);
chosen(deviceId, options[option]);
};
return Box<SingleChoiceBox>(
tr::lng_settings_call_output_device(),
options,
currentOption,
save,
st,
radioSt);
}
object_ptr<SingleChoiceBox> ChooseAudioInputBox(
Fn<void(QString id, QString name)> chosen,
const style::Checkbox *st,
const style::Radio *radioSt) {
const auto &settings = Core::App().settings();
const auto list = GetAudioInputList(settings.callAudioBackend());
const auto options = ranges::view::concat(
ranges::view::single(tr::lng_settings_call_device_default(tr::now)),
list | ranges::view::transform(&AudioInput::name)
) | ranges::to_vector;
const auto i = ranges::find(
list,
Core::App().settings().callInputDeviceId(),
&AudioInput::id);
const auto currentOption = (i != end(list))
? int(i - begin(list) + 1)
: 0;
const auto save = [=](int option) {
const auto deviceId = option
? list[option - 1].id
: "default";
Core::App().calls().setCurrentAudioDevice(true, deviceId);
chosen(deviceId, options[option]);
};
return Box<SingleChoiceBox>(
tr::lng_settings_call_input_device(),
options,
currentOption,
save,
st,
radioSt);
}
object_ptr<SingleChoiceBox> ChooseAudioBackendBox(
const style::Checkbox *st,
const style::Radio *radioSt) {
const auto &settings = Core::App().settings();
const auto list = GetAudioInputList(settings.callAudioBackend());
const auto options = std::vector<QString>{
"OpenAL",
"Webrtc ADM",
#ifdef Q_OS_WIN
"Webrtc ADM2",
#endif // Q_OS_WIN
};
const auto currentOption = static_cast<int>(settings.callAudioBackend());
const auto save = [=](int option) {
Core::App().settings().setCallAudioBackend(
static_cast<Webrtc::Backend>(option));
Core::App().saveSettings();
App::restart();
};
return Box<SingleChoiceBox>(
rpl::single<QString>("Calls audio backend"),
options,
currentOption,
save,
st,
radioSt);
}
} // namespace Settings