// qsamplerDevice.cpp // /**************************************************************************** Copyright (C) 2005, rncbc aka Rui Nuno Capela. All rights reserved. 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. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. *****************************************************************************/ #include "qsamplerDevice.h" #include "qsamplerMainForm.h" #include "qsamplerDeviceForm.h" #include "config.h" //------------------------------------------------------------------------- // qsamplerDeviceParam - MIDI/Audio Device parameter structure. // // Constructors. qsamplerDeviceParam::qsamplerDeviceParam ( lscp_param_info_t *pParamInfo, const char *pszValue ) { setParam(pParamInfo, pszValue); } // Default destructor. qsamplerDeviceParam::~qsamplerDeviceParam (void) { } // Initializer. void qsamplerDeviceParam::setParam ( lscp_param_info_t *pParamInfo, const char *pszValue ) { if (pParamInfo == NULL) return; // Info structure field members. type = pParamInfo->type; if (pParamInfo->description) description = pParamInfo->description; else description = QString::null; mandatory = (bool) pParamInfo->multiplicity; fix = (bool) pParamInfo->fix; multiplicity = (bool) pParamInfo->multiplicity; depends.clear(); for (int i = 0; pParamInfo->depends && pParamInfo->depends[i]; i++) depends.append(pParamInfo->depends[i]); if (pParamInfo->defaultv) defaultv = pParamInfo->defaultv; else defaultv = QString::null; if (pParamInfo->range_min) range_min = pParamInfo->range_min; else range_min = QString::null; if (pParamInfo->range_max) range_max = pParamInfo->range_max; else range_max = QString::null; possibilities.clear(); for (int i = 0; pParamInfo->possibilities && pParamInfo->possibilities[i]; i++) possibilities.append(pParamInfo->possibilities[i]); // The current parameter value. if (pszValue) value = pszValue; else value = QString::null; } //------------------------------------------------------------------------- // qsamplerDevice - MIDI/Audio Device structure. // // Constructor. qsamplerDevice::qsamplerDevice ( lscp_client_t *pClient, qsamplerDeviceType deviceType, int iDeviceID ) { setDevice(pClient, deviceType, iDeviceID); } // Default destructor. qsamplerDevice::~qsamplerDevice (void) { } // Initializer. void qsamplerDevice::setDevice ( lscp_client_t *pClient, qsamplerDeviceType deviceType, int iDeviceID ) { // Device id and type should be always set. m_iDeviceID = iDeviceID; m_deviceType = deviceType; // Retrieve device info, if any. lscp_device_info_t *pDeviceInfo = NULL; switch (deviceType) { case qsamplerDevice::Audio: m_sDeviceType = QObject::tr("Audio"); pDeviceInfo = ::lscp_get_audio_device_info(pClient, iDeviceID); break; case qsamplerDevice::Midi: m_sDeviceType = QObject::tr("MIDI"); pDeviceInfo = ::lscp_get_midi_device_info(pClient, iDeviceID); break; default: m_sDeviceType = QString::null; break; } // If we're bogus, bail out... if (pDeviceInfo == NULL) { m_sDriverName = QString::null; m_sDeviceName = QObject::tr("New device"); return; } // Other device properties... m_sDriverName = pDeviceInfo->driver; m_sDeviceName = m_sDriverName + ' ' + QObject::tr("Device %1").arg(m_iDeviceID); // Grab device parameters... m_params.clear(); for (int i = 0; pDeviceInfo->params && pDeviceInfo->params[i].key; i++) { const char *pszParam = pDeviceInfo->params[i].key; lscp_param_info_t *pParamInfo = NULL; switch (deviceType) { case qsamplerDevice::Audio: pParamInfo = ::lscp_get_audio_driver_param_info(pClient, m_sDriverName.latin1(), pszParam, NULL); break; case qsamplerDevice::Midi: pParamInfo = ::lscp_get_midi_driver_param_info(pClient, m_sDriverName.latin1(), pszParam, NULL); break; } if (pParamInfo) m_params[pszParam] = qsamplerDeviceParam(pParamInfo, pDeviceInfo->params[i].value); } } // Driver name initializer. void qsamplerDevice::setDriver ( lscp_client_t *pClient, const QString& sDriverName ) { // Valid only for scratch devices. if (m_sDriverName == sDriverName) return; // Retrieve driver info, if any. lscp_driver_info_t *pDriverInfo = NULL; switch (m_deviceType) { case qsamplerDevice::Audio: pDriverInfo = ::lscp_get_audio_driver_info(pClient, sDriverName.latin1()); break; case qsamplerDevice::Midi: pDriverInfo = ::lscp_get_midi_driver_info(pClient, sDriverName.latin1()); break; } // If we're bogus, bail out... if (pDriverInfo == NULL) return; // Remember device parameters... m_sDriverName = sDriverName; // Grab driver parameters... m_params.clear(); for (int i = 0; pDriverInfo->parameters && pDriverInfo->parameters[i]; i++) { const char *pszParam = pDriverInfo->parameters[i]; lscp_param_info_t *pParamInfo = NULL; switch (m_deviceType) { case qsamplerDevice::Audio: pParamInfo = ::lscp_get_audio_driver_param_info(pClient, sDriverName.latin1(), pszParam, NULL); break; case qsamplerDevice::Midi: pParamInfo = ::lscp_get_midi_driver_param_info(pClient, sDriverName.latin1(), pszParam, NULL); break; } m_params[pszParam] = qsamplerDeviceParam(pParamInfo, pParamInfo->defaultv); } } // Device property accessors. int qsamplerDevice::deviceID (void) const { return m_iDeviceID; } qsamplerDevice::qsamplerDeviceType qsamplerDevice::deviceType (void) const { return m_deviceType; } const QString& qsamplerDevice::deviceTypeName (void) const { return m_sDeviceType; } const QString& qsamplerDevice::driverName (void) const { return m_sDriverName; } const QString& qsamplerDevice::deviceName (void) const { return m_sDeviceName; } // Device parameter accessor. qsamplerDeviceParamMap& qsamplerDevice::params (void) { return m_params; } // Update/refresh device/driver data. void qsamplerDevice::refresh (void) { } // Device ids enumerator. int *qsamplerDevice::getDevices ( lscp_client_t *pClient, qsamplerDeviceType deviceType ) { int *piDeviceIDs = NULL; switch (deviceType) { case qsamplerDevice::Audio: piDeviceIDs = ::lscp_list_audio_devices(pClient); break; case qsamplerDevice::Midi: piDeviceIDs = ::lscp_list_midi_devices(pClient); break; } return piDeviceIDs; } // Driver names enumerator. QStringList qsamplerDevice::getDrivers ( lscp_client_t *pClient, qsamplerDeviceType deviceType ) { QStringList drivers; const char **ppszDrivers = NULL; switch (deviceType) { case qsamplerDevice::Audio: ppszDrivers = ::lscp_get_available_audio_drivers(pClient); break; case qsamplerDevice::Midi: ppszDrivers = ::lscp_get_available_midi_drivers(pClient); break; } for (int iDriver = 0; ppszDrivers[iDriver]; iDriver++) drivers.append(ppszDrivers[iDriver]); return drivers; } //------------------------------------------------------------------------- // qsamplerDeviceItem - QListView device item. // // Constructors. qsamplerDeviceItem::qsamplerDeviceItem ( QListView *pListView, lscp_client_t *pClient, qsamplerDevice::qsamplerDeviceType deviceType ) : QListViewItem(pListView), m_device(pClient, deviceType) { switch(m_device.deviceType()) { case qsamplerDevice::Audio: QListViewItem::setPixmap(0, QPixmap::fromMimeSource("audio1.png")); QListViewItem::setText(0, QObject::tr("Audio devices")); break; case qsamplerDevice::Midi: QListViewItem::setPixmap(0, QPixmap::fromMimeSource("midi1.png")); QListViewItem::setText(0, QObject::tr("MIDI devices")); break; } } qsamplerDeviceItem::qsamplerDeviceItem ( QListViewItem *pItem, lscp_client_t *pClient, qsamplerDevice::qsamplerDeviceType deviceType, int iDeviceID ) : QListViewItem(pItem), m_device(pClient, deviceType, iDeviceID) { switch(m_device.deviceType()) { case qsamplerDevice::Audio: QListViewItem::setPixmap(0, QPixmap::fromMimeSource("audio2.png")); break; case qsamplerDevice::Midi: QListViewItem::setPixmap(0, QPixmap::fromMimeSource("midi2.png")); break; } QListViewItem::setText(0, m_device.deviceName()); } // Default destructor. qsamplerDeviceItem::~qsamplerDeviceItem (void) { } // Instance accessors. qsamplerDevice& qsamplerDeviceItem::device (void) { return m_device; } // To virtually distinguish between list view items. int qsamplerDeviceItem::rtti() const { return QSAMPLER_DEVICE_ITEM; } //------------------------------------------------------------------------- // qsamplerDeviceParamTable - Device parameter view table. // // Constructor. qsamplerDeviceParamTable::qsamplerDeviceParamTable ( QWidget *pParent, const char *pszName ) : QTable(pParent, pszName) { // Set fixed number of columns. QTable::setNumCols(3); QTable::setShowGrid(false); QTable::setSorting(false); QTable::setFocusStyle(QTable::FollowStyle); QTable::setSelectionMode(QTable::NoSelection); // No vertical header. QTable::verticalHeader()->hide(); QTable::setLeftMargin(0); // Initialize the fixed table column headings. QHeader *pHeader = QTable::horizontalHeader(); pHeader->setLabel(0, tr("Description")); pHeader->setLabel(1, tr("Value")); pHeader->setLabel(2, tr("Parameter")); // Set read-onlyness of each column QTable::setColumnReadOnly(0, true); // QTable::setColumnReadOnly(1, true); -- of course not. QTable::setColumnReadOnly(2, true); QTable::setColumnStretchable(0, true); } // Default destructor. qsamplerDeviceParamTable::~qsamplerDeviceParamTable (void) { } // The main table refresher. void qsamplerDeviceParamTable::refresh ( qsamplerDevice& device ) { // Always (re)start it empty. QTable::setUpdatesEnabled(false); QTable::setNumRows(0); // Now fill the parameter table... qsamplerDeviceParamMap& params = device.params(); QTable::insertRows(0, params.count()); int iRow = 0; qsamplerDeviceParamMap::ConstIterator iter; for (iter = params.begin(); iter != params.end(); ++iter) { const qsamplerDeviceParam& param = iter.data(); bool fEnabled = (device.deviceID() < 0 || param.fix); QTable::setText(iRow, 0, param.description); if (param.type == LSCP_TYPE_BOOL) { QStringList opts; opts.append(tr("false")); opts.append(tr("true")); QComboTableItem *pComboItem = new QComboTableItem(this, opts); pComboItem->setCurrentItem(param.value.lower() == "true" ? 1 : 0); pComboItem->setEnabled(fEnabled); QTable::setItem(iRow, 1, pComboItem); } else if (param.possibilities.count() > 0 && !param.multiplicity) { QComboTableItem *pComboItem = new QComboTableItem(this, param.possibilities); pComboItem->setCurrentItem(param.value); pComboItem->setEnabled(fEnabled); QTable::setItem(iRow, 1, pComboItem); } else { QTableItem* pTableItem = new QTableItem(this, fEnabled ? QTableItem::Never : QTableItem::OnTyping, param.value); QTable::setItem(iRow, 1, pTableItem); } QTable::setText(iRow, 2, iter.key()); ++iRow; } // Adjust optimal column widths. QTable::adjustColumn(1); QTable::adjustColumn(2); QTable::setUpdatesEnabled(true); QTable::updateContents(); } // end of qsamplerDevice.cpp