/*************************************************************************** v4lradio-configuration.cpp - description ------------------- begin : Fre Jun 20 2003 copyright : (C) 2003 by Martin Witte email : witte@kawo1.rwth-aachen.de ***************************************************************************/ /*************************************************************************** * * * This program is free software; you can redistribute it and/or modify * * it under the terms of the GNU General Public License as published by * * the Free Software Foundation; either version 2 of the License, or * * (at your option) any later version. * * * ***************************************************************************/ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "../../src/include/utils.h" #include "../../src/include/gui_list_helper.h" #include "v4lradio-configuration.h" #include "v4lradio.h" V4LRadioConfiguration::V4LRadioConfiguration (TQWidget *parent, SoundStreamID ssid) : V4LRadioConfigurationUI(parent), m_SoundStreamID(ssid), m_ignoreGUIChanges(false), m_myControlChange(0), m_orgTreble(-1), m_orgBass(-1), m_orgBalance(-2), m_orgDeviceVolume(-1), m_PlaybackMixerHelper(comboPlaybackMixerDevice, StringListHelper::SORT_BY_DESCR), m_CaptureMixerHelper (comboCaptureMixerDevice, StringListHelper::SORT_BY_DESCR), m_PlaybackChannelHelper(comboPlaybackMixerChannel), m_CaptureChannelHelper (comboCaptureMixerChannel) { TQObject::connect(buttonSelectRadioDevice, TQT_SIGNAL(clicked()), this, TQT_SLOT(selectRadioDevice())); editRadioDevice->installEventFilter(this); TQObject::connect(editMinFrequency, TQT_SIGNAL(valueChanged(int)), this, TQT_SLOT(guiMinFrequencyChanged(int))); TQObject::connect(editMaxFrequency, TQT_SIGNAL(valueChanged(int)), this, TQT_SLOT(guiMaxFrequencyChanged(int))); TQObject::connect(editDeviceVolume, TQT_SIGNAL(valueChanged(double)), this, TQT_SLOT(slotDeviceVolumeChanged(double))); TQObject::connect(editTreble, TQT_SIGNAL(valueChanged(double)), this, TQT_SLOT(slotTrebleChanged(double))); TQObject::connect(editBass, TQT_SIGNAL(valueChanged(double)), this, TQT_SLOT(slotBassChanged(double))); TQObject::connect(editBalance, TQT_SIGNAL(valueChanged(double)), this, TQT_SLOT(slotBalanceChanged(double))); TQObject::connect(sliderDeviceVolume, TQT_SIGNAL(valueChanged(int)), this, TQT_SLOT(slotDeviceVolumeChanged(int))); TQObject::connect(sliderTreble, TQT_SIGNAL(valueChanged(int)), this, TQT_SLOT(slotTrebleChanged(int))); TQObject::connect(sliderBass, TQT_SIGNAL(valueChanged(int)), this, TQT_SLOT(slotBassChanged(int))); TQObject::connect(sliderBalance, TQT_SIGNAL(valueChanged(int)), this, TQT_SLOT(slotBalanceChanged(int))); TQObject::connect(comboPlaybackMixerDevice, TQT_SIGNAL(activated(int)), this, TQT_SLOT(slotComboPlaybackMixerSelected(int))); TQObject::connect(comboCaptureMixerDevice, TQT_SIGNAL(activated(int)), this, TQT_SLOT(slotComboCaptureMixerSelected(int))); sliderBalance->installEventFilter(this); } V4LRadioConfiguration::~V4LRadioConfiguration () { } bool V4LRadioConfiguration::connectI (Interface *i) { bool a = IV4LCfgClient::connectI(i); bool b = IFrequencyRadioClient::connectI(i); bool c = IRadioDeviceClient::connectI(i); bool d = ISoundStreamClient::connectI(i); return a || b || c || d; } bool V4LRadioConfiguration::disconnectI (Interface *i) { bool a = IV4LCfgClient::disconnectI(i); bool b = IFrequencyRadioClient::disconnectI(i); bool c = IRadioDeviceClient::disconnectI(i); bool d = ISoundStreamClient::disconnectI(i); return a || b || c || d; } void V4LRadioConfiguration::noticeConnectedI (ISoundStreamServer *s, bool pointer_valid) { ISoundStreamClient::noticeConnectedI(s, pointer_valid); if (s && pointer_valid) { s->register4_notifyTrebleChanged(this); s->register4_notifyBassChanged(this); s->register4_notifyBalanceChanged(this); s->register4_notifySignalMinQualityChanged(this); s->register4_notifyPlaybackChannelsChanged(this); s->register4_notifyCaptureChannelsChanged(this); s->register4_notifySoundStreamCreated(this); } } void V4LRadioConfiguration::noticeConnectedSoundClient(ISoundStreamClient::thisInterface *i, bool pointer_valid) { if (i && pointer_valid && i->supportsPlayback()) { const TQString &org_mid = queryPlaybackMixerID(); bool org_present = m_PlaybackMixerHelper.contains(org_mid); const TQString &mid = org_present ? m_PlaybackMixerHelper.getCurrentItem() : org_mid; const TQString &org_ch = queryPlaybackMixerChannel(); const TQString &ch = org_present ? m_PlaybackChannelHelper.getCurrentText() : org_ch; noticePlaybackMixerChanged(mid, ch); } if (i && pointer_valid && i->supportsCapture()) { const TQString &org_mid = queryCaptureMixerID(); bool org_present = m_CaptureMixerHelper.contains(org_mid); const TQString &mid = org_present ? m_CaptureMixerHelper.getCurrentItem() : org_mid; const TQString &org_ch = queryCaptureMixerChannel(); const TQString &ch = org_present ? m_CaptureChannelHelper.getCurrentText() : org_ch; noticeCaptureMixerChanged(mid, ch); } } void V4LRadioConfiguration::noticeDisconnectedSoundClient(ISoundStreamClient::thisInterface *i, bool pointer_valid) { if (i && pointer_valid && i->supportsPlayback()) { noticePlaybackMixerChanged(queryPlaybackMixerID(), queryPlaybackMixerChannel()); } if (i && pointer_valid && i->supportsCapture()) { noticeCaptureMixerChanged (queryCaptureMixerID(), queryCaptureMixerChannel()); } } // IV4LCfgClient bool V4LRadioConfiguration::noticeRadioDeviceChanged(const TQString &s) { bool old = m_ignoreGUIChanges; m_ignoreGUIChanges = true; editRadioDevice->setText(s); m_ignoreGUIChanges = old; return true; } bool V4LRadioConfiguration::noticePlaybackMixerChanged(const TQString &_mixer_id, const TQString &Channel) { TQString mixer_id = _mixer_id; bool old = m_ignoreGUIChanges; m_ignoreGUIChanges = true; m_PlaybackMixerHelper.setData(getPlaybackClientDescriptions()); m_PlaybackMixerHelper.setCurrentItem(mixer_id); mixer_id = m_PlaybackMixerHelper.getCurrentItem(); ISoundStreamClient *mixer = getSoundStreamClientWithID(mixer_id); if (mixer) { m_PlaybackChannelHelper.setData(mixer->getPlaybackChannels()); m_PlaybackChannelHelper.setCurrentText(m_PlaybackChannelHelper.contains(Channel) ? Channel : queryPlaybackMixerChannel()); } labelPlaybackMixerChannel->setEnabled(mixer != NULL); comboPlaybackMixerChannel->setEnabled(mixer != NULL); m_ignoreGUIChanges = old; return true; } bool V4LRadioConfiguration::noticeCaptureMixerChanged(const TQString &_mixer_id, const TQString &Channel) { TQString mixer_id = _mixer_id; bool old = m_ignoreGUIChanges; m_ignoreGUIChanges = true; m_CaptureMixerHelper.setData(getCaptureClientDescriptions()); m_CaptureMixerHelper.setCurrentItem(mixer_id); mixer_id = m_CaptureMixerHelper.getCurrentItem(); ISoundStreamClient *mixer = getSoundStreamClientWithID(mixer_id); if (mixer) { m_CaptureChannelHelper.setData(mixer->getCaptureChannels()); m_CaptureChannelHelper.setCurrentText(m_CaptureChannelHelper.contains(Channel) ? Channel : queryCaptureMixerChannel()); } labelCaptureMixerChannel->setEnabled(mixer != NULL); comboCaptureMixerChannel->setEnabled(mixer != NULL); m_ignoreGUIChanges = old; return true; } bool V4LRadioConfiguration::noticeDeviceVolumeChanged(float v) { bool old = m_ignoreGUIChanges; m_ignoreGUIChanges = true; v = v > 1 ? 1 : v; v = v < 0 ? 0 : v; if (!m_myControlChange) m_orgDeviceVolume = v; editDeviceVolume ->setValue(v); sliderDeviceVolume->setValue(m_caps.maxVolume - m_caps.intGetVolume(v)); m_ignoreGUIChanges = old; return true; } bool V4LRadioConfiguration::noticeCapabilitiesChanged(const V4LCaps &c) { bool old = m_ignoreGUIChanges; m_ignoreGUIChanges = true; labelDeviceVolume ->setEnabled(c.hasVolume); editDeviceVolume ->setEnabled(c.hasVolume); editDeviceVolume ->setRange(0, 1, c.volumeStep(), false); sliderDeviceVolume->setMinValue(0); sliderDeviceVolume->setMaxValue(c.maxVolume - c.minVolume); sliderDeviceVolume->setEnabled(c.hasVolume); labelTreble ->setEnabled(c.hasTreble); editTreble ->setEnabled(c.hasTreble); editTreble ->setRange(0, 1, c.trebleStep(), false); sliderTreble->setMinValue(0); sliderTreble->setMaxValue(c.maxTreble - c.minTreble); sliderTreble->setEnabled(c.hasTreble); labelBass ->setEnabled(c.hasBass); editBass ->setEnabled(c.hasBass); editBass ->setRange(0, 1, c.bassStep(), false); sliderBass->setMinValue(0); sliderBass->setMaxValue(c.maxBass - c.minBass); sliderBass->setEnabled(c.hasBass); labelBalance ->setEnabled(c.hasBalance); editBalance ->setEnabled(c.hasBalance); editBalance ->setRange(-1, 1, c.balanceStep(), false); sliderBalance->setMinValue(0); sliderBalance->setMaxValue(c.maxBalance - c.minBalance); sliderBalance->setEnabled(c.hasBalance); m_caps = c; float tmp = 0; noticeDeviceVolumeChanged(queryDeviceVolume()); queryTreble(m_SoundStreamID, tmp); noticeTrebleChanged(m_SoundStreamID, tmp); queryBass(m_SoundStreamID, tmp); noticeBassChanged(m_SoundStreamID, tmp); queryBalance(m_SoundStreamID, tmp); noticeBalanceChanged(m_SoundStreamID, tmp); m_ignoreGUIChanges = old; return true; } bool V4LRadioConfiguration::noticeActivePlaybackChanged(bool a) { bool old = m_ignoreGUIChanges; m_ignoreGUIChanges = true; m_checkboxActivePlayback->setChecked(a); m_ignoreGUIChanges = old; return true; } bool V4LRadioConfiguration::noticeMuteOnPowerOffChanged(bool a) { bool old = m_ignoreGUIChanges; m_ignoreGUIChanges = true; m_checkboxMuteOnPowerOff->setChecked(a); m_ignoreGUIChanges = old; return true; } bool V4LRadioConfiguration::noticeVolumeZeroOnPowerOffChanged(bool a) { bool old = m_ignoreGUIChanges; m_ignoreGUIChanges = true; m_checkboxVolumeZeroOnPowerOff->setChecked(a); m_ignoreGUIChanges = old; return true; } // IRadioDeviceClient bool V4LRadioConfiguration::noticeDescriptionChanged (const TQString &s, const IRadioDevice */*sender*/) { labelDescription->setText(s); return true; } // IFrequencyRadioClient bool V4LRadioConfiguration::noticeFrequencyChanged(float /*f*/, const RadioStation */*s*/) { return false; // we don't care } bool V4LRadioConfiguration::noticeMinMaxFrequencyChanged(float min, float max) { editMinFrequency->setValue((int)rint(min*1000)); editMaxFrequency->setValue((int)rint(max*1000)); return true; } bool V4LRadioConfiguration::noticeDeviceMinMaxFrequencyChanged(float min, float max) { editMinFrequency->setMinValue((int)rint(min*1000)); editMaxFrequency->setMaxValue((int)rint(max*1000)); return true; } bool V4LRadioConfiguration::noticeScanStepChanged(float s) { editScanStep->setValue((int)rint(s * 1000)); return true; } // IRadioSoundClient bool V4LRadioConfiguration::noticeTrebleChanged(SoundStreamID id, float t) { if (id != m_SoundStreamID) return false; bool old = m_ignoreGUIChanges; m_ignoreGUIChanges = true; t = t > 1 ? 1 : t; t = t < 0 ? 0 : t; if (!m_myControlChange) m_orgTreble = t; editTreble ->setValue (t); sliderTreble->setValue(m_caps.maxTreble - m_caps.intGetTreble(t)); m_ignoreGUIChanges = old; return true; } bool V4LRadioConfiguration::noticeBassChanged(SoundStreamID id, float b) { if (id != m_SoundStreamID) return false; bool old = m_ignoreGUIChanges; m_ignoreGUIChanges = true; b = b > 1 ? 1 : b; b = b < 0 ? 0 : b; if (!m_myControlChange) m_orgBass = b; editBass ->setValue(b); sliderBass->setValue(m_caps.maxBass - m_caps.intGetBass(b)); m_ignoreGUIChanges = old; return true; } bool V4LRadioConfiguration::noticeBalanceChanged(SoundStreamID id, float b) { if (id != m_SoundStreamID) return false; bool old = m_ignoreGUIChanges; m_ignoreGUIChanges = true; b = b > 1 ? 1 : b; b = b < -1 ? -1 : b; if (!m_myControlChange) m_orgBalance = b; editBalance ->setValue(b); sliderBalance->setValue(m_caps.intGetBalance(b)); m_ignoreGUIChanges = old; return true; } bool V4LRadioConfiguration::noticeSignalMinQualityChanged(SoundStreamID id, float q) { if (id != m_SoundStreamID) return false; editSignalMinQuality->setValue((int)rint(q * 100)); return true; } bool V4LRadioConfiguration::noticeSoundStreamCreated(SoundStreamID id) { if (id.HasSamePhysicalID(m_SoundStreamID)) { m_SoundStreamID = id; } return true; } // GUI Slots void V4LRadioConfiguration::selectRadioDevice() { KFileDialog fd("/dev/", i18n("any ( * )").ascii(), this, i18n("Radio Device Selection").ascii(), TRUE); fd.setMode(KFile::File | KFile::ExistingOnly); fd.setCaption (i18n("Select Radio Device")); if (fd.exec() == TQDialog::Accepted) { editRadioDevice->setText(fd.selectedFile()); } } bool V4LRadioConfiguration::eventFilter(TQObject *o, TQEvent *e) { if (e->type() == TQEvent::FocusOut && TQT_BASE_OBJECT(o) == TQT_BASE_OBJECT(editRadioDevice)) { slotEditRadioDeviceChanged(); } if (e->type() == TQEvent::MouseButtonDblClick && TQT_BASE_OBJECT(o) == TQT_BASE_OBJECT(sliderBalance)) { slotBalanceCenter(); } return false; } void V4LRadioConfiguration::slotEditRadioDeviceChanged() { if (m_ignoreGUIChanges) return; const TQString &s = editRadioDevice->text(); if (s != queryRadioDevice() || !queryIsPowerOn()) { V4LCaps c = queryCapabilities(s); noticeDescriptionChanged(c.description); } else { noticeDescriptionChanged(queryDescription()); } } void V4LRadioConfiguration::slotComboPlaybackMixerSelected(int /*idx*/) { if (m_ignoreGUIChanges) return; TQString id = m_PlaybackMixerHelper.getCurrentItem(); noticePlaybackMixerChanged(id, queryPlaybackMixerChannel()); } void V4LRadioConfiguration::slotComboCaptureMixerSelected(int /*idx*/) { if (m_ignoreGUIChanges) return; TQString id = m_CaptureMixerHelper.getCurrentItem(); noticeCaptureMixerChanged(id, queryCaptureMixerChannel()); } void V4LRadioConfiguration::slotOK() { sendMinFrequency(((float)editMinFrequency->value()) / 1000.0); sendMaxFrequency(((float)editMaxFrequency->value()) / 1000.0); sendSignalMinQuality(m_SoundStreamID, editSignalMinQuality->value() * 0.01); sendRadioDevice(editRadioDevice->text()); sendScanStep(((float)editScanStep->value()) / 1000.0); sendCaptureMixer (m_CaptureMixerHelper.getCurrentItem(), m_CaptureChannelHelper.getCurrentText()); sendPlaybackMixer(m_PlaybackMixerHelper.getCurrentItem(), m_PlaybackChannelHelper.getCurrentText()); sendActivePlayback(m_checkboxActivePlayback->isChecked()); sendMuteOnPowerOff(m_checkboxMuteOnPowerOff->isChecked()); sendVolumeZeroOnPowerOff(m_checkboxVolumeZeroOnPowerOff->isChecked()); queryTreble (m_SoundStreamID, m_orgTreble); queryBass (m_SoundStreamID, m_orgBass); queryBalance(m_SoundStreamID, m_orgBalance); m_orgDeviceVolume = queryDeviceVolume(); } void V4LRadioConfiguration::slotCancel() { noticeRadioDeviceChanged(queryRadioDevice()); noticePlaybackMixerChanged(queryPlaybackMixerID(), queryPlaybackMixerChannel()); noticeCaptureMixerChanged (queryCaptureMixerID(), queryCaptureMixerChannel()); noticeMinMaxFrequencyChanged(queryMinFrequency(), queryMaxFrequency()); noticeActivePlaybackChanged(queryActivePlayback()); noticeMuteOnPowerOffChanged(queryMuteOnPowerOff()); noticeVolumeZeroOnPowerOffChanged(queryVolumeZeroOnPowerOff()); float q = 0; querySignalMinQuality(m_SoundStreamID, q); noticeSignalMinQualityChanged(m_SoundStreamID, q); noticeScanStepChanged(queryScanStep()); sendTreble (m_SoundStreamID, m_orgTreble); sendBass (m_SoundStreamID, m_orgBass); sendBalance (m_SoundStreamID, m_orgBalance); sendDeviceVolume(m_orgDeviceVolume); } void V4LRadioConfiguration::guiMinFrequencyChanged(int v) { editMaxFrequency->setMinValue(v); } void V4LRadioConfiguration::guiMaxFrequencyChanged(int v) { editMinFrequency->setMaxValue(v); } void V4LRadioConfiguration::slotDeviceVolumeChanged (double v) // for KDoubleNumInput, 0.0..1.0 { if (m_ignoreGUIChanges) return; ++m_myControlChange; sendDeviceVolume(v); --m_myControlChange; } void V4LRadioConfiguration::slotTrebleChanged (double t) // for KDoubleNumInput, 0.0..1.0 { if (m_ignoreGUIChanges) return; ++m_myControlChange; sendTreble(m_SoundStreamID, t); --m_myControlChange; } void V4LRadioConfiguration::slotBassChanged (double b) // for KDoubleNumInput, 0.0..1.0 { if (m_ignoreGUIChanges) return; ++m_myControlChange; sendBass(m_SoundStreamID, b); --m_myControlChange; } void V4LRadioConfiguration::slotBalanceChanged(double b) // for KDoubleNumInput, -1.0..1.0 { if (m_ignoreGUIChanges) return; ++m_myControlChange; sendBalance(m_SoundStreamID, b); --m_myControlChange; } void V4LRadioConfiguration::slotDeviceVolumeChanged (int v) { if (m_ignoreGUIChanges) return; ++m_myControlChange; sendDeviceVolume(m_caps.floatGetVolume(m_caps.maxVolume - v)); --m_myControlChange; } void V4LRadioConfiguration::slotTrebleChanged (int t) { if (m_ignoreGUIChanges) return; ++m_myControlChange; sendTreble(m_SoundStreamID, m_caps.floatGetTreble(m_caps.maxTreble - t)); --m_myControlChange; } void V4LRadioConfiguration::slotBassChanged (int b) { if (m_ignoreGUIChanges) return; ++m_myControlChange; sendBass(m_SoundStreamID, m_caps.floatGetBass(m_caps.maxBass - b)); --m_myControlChange; } void V4LRadioConfiguration::slotBalanceChanged(int b) { if (m_ignoreGUIChanges) return; ++m_myControlChange; sendBalance(m_SoundStreamID, m_caps.floatGetBalance(b)); --m_myControlChange; } void V4LRadioConfiguration::slotBalanceCenter() { if (m_ignoreGUIChanges) return; ++m_myControlChange; sendBalance(m_SoundStreamID, 0); --m_myControlChange; } bool V4LRadioConfiguration::noticePlaybackChannelsChanged(const TQString & client_id, const TQStringList &/*channels*/) { if (m_PlaybackMixerHelper.getCurrentItem() == client_id) { noticePlaybackMixerChanged(client_id, m_PlaybackChannelHelper.getCurrentText()); } return true; } bool V4LRadioConfiguration::noticeCaptureChannelsChanged (const TQString & client_id, const TQStringList &/*channels*/) { if (m_CaptureMixerHelper.getCurrentItem() == client_id) { noticeCaptureMixerChanged(client_id, m_CaptureChannelHelper.getCurrentText()); } return true; } #include "v4lradio-configuration.moc"