/* * Copyright (C) 2006-2015 Andreas Persson * * 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, 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 program; see the file COPYING. If not, write to the Free * Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA * 02110-1301 USA. */ #include #include #include // threads.h must be included first to be able to build with // G_DISABLE_DEPRECATED #if (GLIBMM_MAJOR_VERSION == 2 && GLIBMM_MINOR_VERSION == 31 && GLIBMM_MICRO_VERSION >= 2) || \ (GLIBMM_MAJOR_VERSION == 2 && GLIBMM_MINOR_VERSION > 31) || GLIBMM_MAJOR_VERSION > 2 #include #endif #include #include #include #include #include #include #include #include #include #include #if GTKMM_MAJOR_VERSION < 3 #include "wrapLabel.hh" #endif #include "global.h" #include "compat.h" #include #include #include #include "mainwindow.h" #include "Settings.h" #include "CombineInstrumentsDialog.h" #include "scripteditor.h" #include "scriptslots.h" #include "ReferencesView.h" #include "../../gfx/status_attached.xpm" #include "../../gfx/status_detached.xpm" MainWindow::MainWindow() : m_DimRegionChooser(*this), dimreg_label(_("Changes apply to:")), dimreg_all_regions(_("all regions")), dimreg_all_dimregs(_("all dimension splits")), dimreg_stereo(_("both channels")) { // set_border_width(5); // set_default_size(400, 200); add(m_VBox); // Handle selection m_TreeView.get_selection()->signal_changed().connect( sigc::mem_fun(*this, &MainWindow::on_sel_change)); // m_TreeView.set_reorderable(); m_TreeView.signal_button_press_event().connect_notify( sigc::mem_fun(*this, &MainWindow::on_button_release)); // Add the TreeView tab, inside a ScrolledWindow, with the button underneath: m_ScrolledWindow.add(m_TreeView); // m_ScrolledWindow.set_size_request(200, 600); m_ScrolledWindow.set_policy(Gtk::POLICY_AUTOMATIC, Gtk::POLICY_AUTOMATIC); m_ScrolledWindowSamples.add(m_TreeViewSamples); m_ScrolledWindowSamples.set_policy(Gtk::POLICY_AUTOMATIC, Gtk::POLICY_AUTOMATIC); m_ScrolledWindowScripts.add(m_TreeViewScripts); m_ScrolledWindowScripts.set_policy(Gtk::POLICY_AUTOMATIC, Gtk::POLICY_AUTOMATIC); m_TreeViewNotebook.set_size_request(300); m_HPaned.add1(m_TreeViewNotebook); dimreg_hbox.add(dimreg_label); dimreg_hbox.add(dimreg_all_regions); dimreg_hbox.add(dimreg_all_dimregs); dimreg_stereo.set_active(); dimreg_hbox.add(dimreg_stereo); dimreg_vbox.add(dimreg_edit); dimreg_vbox.pack_start(dimreg_hbox, Gtk::PACK_SHRINK); m_HPaned.add2(dimreg_vbox); dimreg_label.set_tooltip_text(_("To automatically apply your changes above globally to the entire instrument, check all 3 check boxes on the right.")); dimreg_all_regions.set_tooltip_text(_("If checked: all changes you perform above will automatically be applied to all regions of this instrument as well.")); dimreg_all_dimregs.set_tooltip_text(_("If checked: all changes you perform above will automatically be applied as well to all dimension splits of the region selected below.")); dimreg_stereo.set_tooltip_text(_("If checked: all changes you perform above will automatically be applied to both audio channel splits (only if a \"stereo\" dimension is defined below).")); m_TreeViewNotebook.append_page(m_ScrolledWindowSamples, _("Samples")); m_TreeViewNotebook.append_page(m_ScrolledWindow, _("Instruments")); m_TreeViewNotebook.append_page(m_ScrolledWindowScripts, _("Scripts")); actionGroup = Gtk::ActionGroup::create(); actionGroup->add(Gtk::Action::create("MenuFile", _("_File"))); actionGroup->add(Gtk::Action::create("New", _("_New")), Gtk::AccelKey("n"), sigc::mem_fun( *this, &MainWindow::on_action_file_new)); actionGroup->add(Gtk::Action::create("Open", _("_Open...")), Gtk::AccelKey("o"), sigc::mem_fun( *this, &MainWindow::on_action_file_open)); actionGroup->add(Gtk::Action::create("Save", _("_Save")), Gtk::AccelKey("s"), sigc::mem_fun( *this, &MainWindow::on_action_file_save)); actionGroup->add(Gtk::Action::create("SaveAs", _("Save _As...")), Gtk::AccelKey("s"), sigc::mem_fun( *this, &MainWindow::on_action_file_save_as)); actionGroup->add(Gtk::Action::create("Properties", _("_Properties")), sigc::mem_fun( *this, &MainWindow::on_action_file_properties)); actionGroup->add(Gtk::Action::create("InstrProperties", _("_Properties")), sigc::mem_fun( *this, &MainWindow::show_instr_props)); actionGroup->add(Gtk::Action::create("MidiRules", _("_Midi Rules...")), sigc::mem_fun( *this, &MainWindow::show_midi_rules)); actionGroup->add(Gtk::Action::create("ScriptSlots", _("_Script Slots...")), sigc::mem_fun( *this, &MainWindow::show_script_slots)); actionGroup->add(Gtk::Action::create("Quit", _("_Quit")), Gtk::AccelKey("q"), sigc::mem_fun( *this, &MainWindow::on_action_quit)); actionGroup->add( Gtk::Action::create("MenuSample", _("_Sample")), sigc::mem_fun(*this, &MainWindow::show_samples_tab) ); actionGroup->add( Gtk::Action::create("MenuInstrument", _("_Instrument")), sigc::mem_fun(*this, &MainWindow::show_intruments_tab) ); actionGroup->add( Gtk::Action::create("MenuScript", _("S_cript")), sigc::mem_fun(*this, &MainWindow::show_scripts_tab) ); actionGroup->add(Gtk::Action::create("AllInstruments", _("_Select"))); actionGroup->add(Gtk::Action::create("MenuEdit", _("_Edit"))); Glib::RefPtr toggle_action = Gtk::ToggleAction::create("CopySampleUnity", _("Copy Sample's _Unity Note")); toggle_action->set_active(true); actionGroup->add(toggle_action); toggle_action = Gtk::ToggleAction::create("CopySampleTune", _("Copy Sample's _Fine Tune")); toggle_action->set_active(true); actionGroup->add(toggle_action); toggle_action = Gtk::ToggleAction::create("CopySampleLoop", _("Copy Sample's _Loop Points")); toggle_action->set_active(true); actionGroup->add(toggle_action); actionGroup->add(Gtk::Action::create("MenuView", _("_View"))); toggle_action = Gtk::ToggleAction::create("Statusbar", _("_Statusbar")); toggle_action->set_active(true); actionGroup->add(toggle_action, sigc::mem_fun( *this, &MainWindow::on_action_view_status_bar)); actionGroup->add( Gtk::Action::create("RefreshAll", _("_Refresh All")), sigc::mem_fun(*this, &MainWindow::on_action_refresh_all) ); actionGroup->add(Gtk::Action::create("MenuHelp", _("_Help"))); actionGroup->add(Gtk::Action::create("About", _("_About")), sigc::mem_fun( *this, &MainWindow::on_action_help_about)); actionGroup->add( Gtk::Action::create("AddInstrument", _("Add _Instrument")), sigc::mem_fun(*this, &MainWindow::on_action_add_instrument) ); actionGroup->add( Gtk::Action::create("DupInstrument", _("_Duplicate Instrument")), sigc::mem_fun(*this, &MainWindow::on_action_duplicate_instrument) ); actionGroup->add( Gtk::Action::create("RemoveInstrument", _("_Remove")), sigc::mem_fun(*this, &MainWindow::on_action_remove_instrument) ); actionGroup->add(Gtk::Action::create("MenuSettings", _("_Settings"))); toggle_action = Gtk::ToggleAction::create("WarnUserOnExtensions", _("Show warning on format _extensions")); toggle_action->set_active(Settings::singleton()->warnUserOnExtensions); actionGroup->add( toggle_action, sigc::mem_fun(*this, &MainWindow::on_action_warn_user_on_extensions) ); toggle_action = Gtk::ToggleAction::create("SyncSamplerInstrumentSelection", _("Synchronize sampler's instrument selection")); toggle_action->set_active(Settings::singleton()->syncSamplerInstrumentSelection); actionGroup->add( toggle_action, sigc::mem_fun(*this, &MainWindow::on_action_sync_sampler_instrument_selection) ); toggle_action = Gtk::ToggleAction::create("MoveRootNoteWithRegionMoved", _("Move root note with region moved")); toggle_action->set_active(Settings::singleton()->moveRootNoteWithRegionMoved); actionGroup->add( toggle_action, sigc::mem_fun(*this, &MainWindow::on_action_move_root_note_with_region_moved) ); actionGroup->add(Gtk::Action::create("MenuTools", _("_Tools"))); actionGroup->add( Gtk::Action::create("CombineInstruments", _("_Combine Instruments...")), sigc::mem_fun(*this, &MainWindow::on_action_combine_instruments) ); actionGroup->add( Gtk::Action::create("MergeFiles", _("_Merge Files...")), sigc::mem_fun(*this, &MainWindow::on_action_merge_files) ); // sample right-click popup actions actionGroup->add( Gtk::Action::create("SampleProperties", _("_Properties")), sigc::mem_fun(*this, &MainWindow::on_action_sample_properties) ); actionGroup->add( Gtk::Action::create("AddGroup", _("Add _Group")), sigc::mem_fun(*this, &MainWindow::on_action_add_group) ); actionGroup->add( Gtk::Action::create("AddSample", _("Add _Sample(s)...")), sigc::mem_fun(*this, &MainWindow::on_action_add_sample) ); actionGroup->add( Gtk::Action::create("RemoveSample", _("_Remove")), sigc::mem_fun(*this, &MainWindow::on_action_remove_sample) ); actionGroup->add( Gtk::Action::create("RemoveUnusedSamples", _("Remove _Unused Samples")), sigc::mem_fun(*this, &MainWindow::on_action_remove_unused_samples) ); actionGroup->add( Gtk::Action::create("ShowSampleRefs", _("Show References...")), sigc::mem_fun(*this, &MainWindow::on_action_view_references) ); actionGroup->add( Gtk::Action::create("ReplaceSample", _("Replace Sample...")), sigc::mem_fun(*this, &MainWindow::on_action_replace_sample) ); actionGroup->add( Gtk::Action::create("ReplaceAllSamplesInAllGroups", _("Replace All Samples in All Groups...")), sigc::mem_fun(*this, &MainWindow::on_action_replace_all_samples_in_all_groups) ); // script right-click popup actions actionGroup->add( Gtk::Action::create("AddScriptGroup", _("Add _Group")), sigc::mem_fun(*this, &MainWindow::on_action_add_script_group) ); actionGroup->add( Gtk::Action::create("AddScript", _("Add _Script")), sigc::mem_fun(*this, &MainWindow::on_action_add_script) ); actionGroup->add( Gtk::Action::create("EditScript", _("_Edit Script...")), sigc::mem_fun(*this, &MainWindow::on_action_edit_script) ); actionGroup->add( Gtk::Action::create("RemoveScript", _("_Remove")), sigc::mem_fun(*this, &MainWindow::on_action_remove_script) ); uiManager = Gtk::UIManager::create(); uiManager->insert_action_group(actionGroup); add_accel_group(uiManager->get_accel_group()); Glib::ustring ui_info = "" " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " " ""; uiManager->add_ui_from_string(ui_info); popup_menu = dynamic_cast(uiManager->get_widget("/PopupMenu")); // Set tooltips for menu items (for some reason, setting a tooltip on the // respective Gtk::Action objects above will simply be ignored, no matter // if using Gtk::Action::set_tooltip() or passing the tooltip string on // Gtk::Action::create()). { Gtk::MenuItem* item = dynamic_cast( uiManager->get_widget("/MenuBar/MenuEdit/CopySampleUnity")); item->set_tooltip_text(_("Used when dragging a sample to a region's sample reference field. You may disable this for example if you want to replace an existing sample in a region with a new sample, but don't want that the region's current unity note setting will be altered by this action.")); } { Gtk::MenuItem* item = dynamic_cast( uiManager->get_widget("/MenuBar/MenuEdit/CopySampleTune")); item->set_tooltip_text(_("Used when dragging a sample to a region's sample reference field. You may disable this for example if you want to replace an existing sample in a region with a new sample, but don't want that the region's current sample playback tuning will be altered by this action.")); } { Gtk::MenuItem* item = dynamic_cast( uiManager->get_widget("/MenuBar/MenuEdit/CopySampleLoop")); item->set_tooltip_text(_("Used when dragging a sample to a region's sample reference field. You may disable this for example if you want to replace an existing sample in a region with a new sample, but don't want that the region's current loop informations to be altered by this action.")); } { Gtk::MenuItem* item = dynamic_cast( uiManager->get_widget("/MenuBar/MenuSettings/WarnUserOnExtensions")); item->set_tooltip_text(_("If checked, a warning will be shown whenever you try to use a feature which is based on a LinuxSampler extension ontop of the original gig format, which would not work with the Gigasampler/GigaStudio application.")); } { Gtk::MenuItem* item = dynamic_cast( uiManager->get_widget("/MenuBar/MenuSettings/SyncSamplerInstrumentSelection")); item->set_tooltip_text(_("If checked, the sampler's current instrument will automatically be switched whenever another instrument was selected in gigedit (only available in live-mode).")); } { Gtk::MenuItem* item = dynamic_cast( uiManager->get_widget("/MenuBar/MenuSettings/MoveRootNoteWithRegionMoved")); item->set_tooltip_text(_("If checked, and when a region is moved by dragging it around on the virtual keyboard, the keybord position dependent pitch will move exactly with the amount of semi tones the region was moved around.")); } { Gtk::MenuItem* item = dynamic_cast( uiManager->get_widget("/MenuBar/MenuSample/RemoveUnusedSamples")); item->set_tooltip_text(_("Removes all samples that are not referenced by any instrument (i.e. red ones).")); // copy tooltip to popup menu Gtk::MenuItem* item2 = dynamic_cast( uiManager->get_widget("/SamplePopupMenu/RemoveUnusedSamples")); item2->set_tooltip_text(item->get_tooltip_text()); } { Gtk::MenuItem* item = dynamic_cast( uiManager->get_widget("/MenuBar/MenuView/RefreshAll")); item->set_tooltip_text(_("Reloads the currently open gig file and updates the entire graphical user interface.")); } { Gtk::MenuItem* item = dynamic_cast( uiManager->get_widget("/MenuBar/MenuTools/CombineInstruments")); item->set_tooltip_text(_("Create combi sounds out of individual sounds of this .gig file.")); } { Gtk::MenuItem* item = dynamic_cast( uiManager->get_widget("/MenuBar/MenuTools/MergeFiles")); item->set_tooltip_text(_("Add instruments and samples of other .gig files to this .gig file.")); } instrument_menu = static_cast( uiManager->get_widget("/MenuBar/MenuInstrument/AllInstruments"))->get_submenu(); Gtk::Widget* menuBar = uiManager->get_widget("/MenuBar"); m_VBox.pack_start(*menuBar, Gtk::PACK_SHRINK); m_VBox.pack_start(m_HPaned); m_VBox.pack_start(m_RegionChooser, Gtk::PACK_SHRINK); m_VBox.pack_start(m_RegionChooser.m_VirtKeybPropsBox, Gtk::PACK_SHRINK); m_VBox.pack_start(m_DimRegionChooser, Gtk::PACK_SHRINK); m_VBox.pack_start(m_StatusBar, Gtk::PACK_SHRINK); set_file_is_shared(false); // Status Bar: m_StatusBar.pack_start(m_AttachedStateLabel, Gtk::PACK_SHRINK); m_StatusBar.pack_start(m_AttachedStateImage, Gtk::PACK_SHRINK); m_StatusBar.show(); m_RegionChooser.signal_region_selected().connect( sigc::mem_fun(*this, &MainWindow::region_changed) ); m_DimRegionChooser.signal_dimregion_selected().connect( sigc::mem_fun(*this, &MainWindow::dimreg_changed) ); // Create the Tree model: m_refTreeModel = Gtk::ListStore::create(m_Columns); m_TreeView.set_model(m_refTreeModel); m_TreeView.set_tooltip_text(_("Right click here for actions on instruments & MIDI Rules. Drag & drop to change the order of instruments.")); instrument_name_connection = m_refTreeModel->signal_row_changed().connect( sigc::mem_fun(*this, &MainWindow::instrument_name_changed) ); // Add the TreeView's view columns: m_TreeView.append_column_editable("Instrument", m_Columns.m_col_name); m_TreeView.set_headers_visible(false); // establish drag&drop within the instrument tree view, allowing to reorder // the sequence of instruments within the gig file { std::vector drag_target_instrument; drag_target_instrument.push_back(Gtk::TargetEntry("gig::Instrument")); m_TreeView.drag_source_set(drag_target_instrument); m_TreeView.drag_dest_set(drag_target_instrument); m_TreeView.signal_drag_begin().connect( sigc::mem_fun(*this, &MainWindow::on_instruments_treeview_drag_begin) ); m_TreeView.signal_drag_data_get().connect( sigc::mem_fun(*this, &MainWindow::on_instruments_treeview_drag_data_get) ); m_TreeView.signal_drag_data_received().connect( sigc::mem_fun(*this, &MainWindow::on_instruments_treeview_drop_drag_data_received) ); } // create samples treeview (including its data model) m_refSamplesTreeModel = SamplesTreeStore::create(m_SamplesModel); m_TreeViewSamples.set_model(m_refSamplesTreeModel); m_TreeViewSamples.set_tooltip_text(_("To actually use a sample, drag it from this list view to \"Sample\" -> \"Sample:\" on the region's settings pane on the right.\n\nRight click here for more actions on samples.")); // m_TreeViewSamples.set_reorderable(); m_TreeViewSamples.append_column_editable(_("Name"), m_SamplesModel.m_col_name); m_TreeViewSamples.append_column(_("Referenced"), m_SamplesModel.m_col_refcount); { Gtk::TreeViewColumn* column = m_TreeViewSamples.get_column(0); Gtk::CellRendererText* cellrenderer = dynamic_cast(column->get_first_cell()); column->add_attribute( cellrenderer->property_foreground(), m_SamplesModel.m_color ); } { Gtk::TreeViewColumn* column = m_TreeViewSamples.get_column(1); Gtk::CellRendererText* cellrenderer = dynamic_cast(column->get_first_cell()); column->add_attribute( cellrenderer->property_foreground(), m_SamplesModel.m_color ); } m_TreeViewSamples.set_headers_visible(true); m_TreeViewSamples.signal_button_press_event().connect_notify( sigc::mem_fun(*this, &MainWindow::on_sample_treeview_button_release) ); m_refSamplesTreeModel->signal_row_changed().connect( sigc::mem_fun(*this, &MainWindow::sample_name_changed) ); // create scripts treeview (including its data model) m_refScriptsTreeModel = ScriptsTreeStore::create(m_ScriptsModel); m_TreeViewScripts.set_model(m_refScriptsTreeModel); m_TreeViewScripts.set_tooltip_text(_( "Use CTRL + double click for editing a script." "\n\n" "Note: instrument scripts are a LinuxSampler extension of the gig " "format. This feature will not work with the GigaStudio software!" )); // m_TreeViewScripts.set_reorderable(); m_TreeViewScripts.append_column_editable("Samples", m_ScriptsModel.m_col_name); m_TreeViewScripts.set_headers_visible(false); m_TreeViewScripts.signal_button_press_event().connect_notify( sigc::mem_fun(*this, &MainWindow::on_script_treeview_button_release) ); //FIXME: why the heck does this double click signal_row_activated() only fire while CTRL key is pressed ? m_TreeViewScripts.signal_row_activated().connect( sigc::mem_fun(*this, &MainWindow::script_double_clicked) ); m_refScriptsTreeModel->signal_row_changed().connect( sigc::mem_fun(*this, &MainWindow::script_name_changed) ); // establish drag&drop between scripts tree view and ScriptSlots window std::vector drag_target_gig_script; drag_target_gig_script.push_back(Gtk::TargetEntry("gig::Script")); m_TreeViewScripts.drag_source_set(drag_target_gig_script); m_TreeViewScripts.signal_drag_begin().connect( sigc::mem_fun(*this, &MainWindow::on_scripts_treeview_drag_begin) ); m_TreeViewScripts.signal_drag_data_get().connect( sigc::mem_fun(*this, &MainWindow::on_scripts_treeview_drag_data_get) ); // establish drag&drop between samples tree view and dimension region 'Sample' text entry std::vector drag_target_gig_sample; drag_target_gig_sample.push_back(Gtk::TargetEntry("gig::Sample")); m_TreeViewSamples.drag_source_set(drag_target_gig_sample); m_TreeViewSamples.signal_drag_begin().connect( sigc::mem_fun(*this, &MainWindow::on_sample_treeview_drag_begin) ); m_TreeViewSamples.signal_drag_data_get().connect( sigc::mem_fun(*this, &MainWindow::on_sample_treeview_drag_data_get) ); dimreg_edit.wSample->drag_dest_set(drag_target_gig_sample); dimreg_edit.wSample->signal_drag_data_received().connect( sigc::mem_fun(*this, &MainWindow::on_sample_label_drop_drag_data_received) ); dimreg_edit.signal_dimreg_changed().connect( sigc::hide(sigc::mem_fun(*this, &MainWindow::file_changed))); m_RegionChooser.signal_instrument_changed().connect( sigc::mem_fun(*this, &MainWindow::file_changed)); m_RegionChooser.signal_instrument_changed().connect( sigc::mem_fun(*this, &MainWindow::region_changed)); m_DimRegionChooser.signal_region_changed().connect( sigc::mem_fun(*this, &MainWindow::file_changed)); instrumentProps.signal_changed().connect( sigc::mem_fun(*this, &MainWindow::file_changed)); propDialog.signal_changed().connect( sigc::mem_fun(*this, &MainWindow::file_changed)); midiRules.signal_changed().connect( sigc::mem_fun(*this, &MainWindow::file_changed)); dimreg_edit.signal_dimreg_to_be_changed().connect( dimreg_to_be_changed_signal.make_slot()); dimreg_edit.signal_dimreg_changed().connect( dimreg_changed_signal.make_slot()); dimreg_edit.signal_sample_ref_changed().connect( sample_ref_changed_signal.make_slot()); sample_ref_changed_signal.connect( sigc::mem_fun(*this, &MainWindow::on_sample_ref_changed) ); samples_to_be_removed_signal.connect( sigc::mem_fun(*this, &MainWindow::on_samples_to_be_removed) ); dimreg_edit.signal_select_sample().connect( sigc::mem_fun(*this, &MainWindow::select_sample) ); m_RegionChooser.signal_instrument_struct_to_be_changed().connect( sigc::hide( sigc::bind( file_structure_to_be_changed_signal.make_slot(), sigc::ref(this->file) ) ) ); m_RegionChooser.signal_instrument_struct_changed().connect( sigc::hide( sigc::bind( file_structure_changed_signal.make_slot(), sigc::ref(this->file) ) ) ); m_RegionChooser.signal_region_to_be_changed().connect( region_to_be_changed_signal.make_slot()); m_RegionChooser.signal_region_changed_signal().connect( region_changed_signal.make_slot()); note_on_signal.connect( sigc::mem_fun(m_RegionChooser, &RegionChooser::on_note_on_event)); note_off_signal.connect( sigc::mem_fun(m_RegionChooser, &RegionChooser::on_note_off_event)); dimreg_all_regions.signal_toggled().connect( sigc::mem_fun(*this, &MainWindow::update_dimregs)); dimreg_all_dimregs.signal_toggled().connect( sigc::mem_fun(*this, &MainWindow::dimreg_all_dimregs_toggled)); dimreg_stereo.signal_toggled().connect( sigc::mem_fun(*this, &MainWindow::update_dimregs)); file = 0; file_is_changed = false; show_all_children(); // start with a new gig file by default on_action_file_new(); // select 'Instruments' tab by default // (gtk allows this only if the tab childs are visible, thats why it's here) m_TreeViewNotebook.set_current_page(1); } MainWindow::~MainWindow() { } bool MainWindow::on_delete_event(GdkEventAny* event) { return !file_is_shared && file_is_changed && !close_confirmation_dialog(); } void MainWindow::on_action_quit() { if (!file_is_shared && file_is_changed && !close_confirmation_dialog()) return; hide(); } void MainWindow::region_changed() { m_DimRegionChooser.set_region(m_RegionChooser.get_region()); } gig::Instrument* MainWindow::get_instrument() { gig::Instrument* instrument = 0; Gtk::TreeModel::const_iterator it = m_TreeView.get_selection()->get_selected(); if (it) { Gtk::TreeModel::Row row = *it; instrument = row[m_Columns.m_col_instr]; } return instrument; } void MainWindow::add_region_to_dimregs(gig::Region* region, bool stereo, bool all_dimregs) { if (all_dimregs) { for (int i = 0 ; i < region->DimensionRegions ; i++) { if (region->pDimensionRegions[i]) { dimreg_edit.dimregs.insert(region->pDimensionRegions[i]); } } } else { m_DimRegionChooser.get_dimregions(region, stereo, dimreg_edit.dimregs); } } void MainWindow::update_dimregs() { dimreg_edit.dimregs.clear(); bool all_regions = dimreg_all_regions.get_active(); bool stereo = dimreg_stereo.get_active(); bool all_dimregs = dimreg_all_dimregs.get_active(); if (all_regions) { gig::Instrument* instrument = get_instrument(); if (instrument) { for (gig::Region* region = instrument->GetFirstRegion() ; region ; region = instrument->GetNextRegion()) { add_region_to_dimregs(region, stereo, all_dimregs); } } } else { gig::Region* region = m_RegionChooser.get_region(); if (region) { add_region_to_dimregs(region, stereo, all_dimregs); } } } void MainWindow::dimreg_all_dimregs_toggled() { dimreg_stereo.set_sensitive(!dimreg_all_dimregs.get_active()); update_dimregs(); } void MainWindow::dimreg_changed() { update_dimregs(); dimreg_edit.set_dim_region(m_DimRegionChooser.get_main_dimregion()); } void MainWindow::on_sel_change() { // select item in instrument menu Gtk::TreeModel::iterator it = m_TreeView.get_selection()->get_selected(); if (it) { Gtk::TreePath path(it); int index = path[0]; const std::vector children = instrument_menu->get_children(); static_cast(children[index])->set_active(); } m_RegionChooser.set_instrument(get_instrument()); if (Settings::singleton()->syncSamplerInstrumentSelection) { switch_sampler_instrument_signal.emit(get_instrument()); } } void loader_progress_callback(gig::progress_t* progress) { Loader* loader = static_cast(progress->custom); loader->progress_callback(progress->factor); } void Loader::progress_callback(float fraction) { { Glib::Threads::Mutex::Lock lock(progressMutex); progress = fraction; } progress_dispatcher(); } void Loader::thread_function() { printf("thread_function self=%p\n", static_cast(Glib::Threads::Thread::self())); printf("Start %s\n", filename.c_str()); try { RIFF::File* riff = new RIFF::File(filename); gig = new gig::File(riff); gig::progress_t progress; progress.callback = loader_progress_callback; progress.custom = this; gig->GetInstrument(0, &progress); printf("End\n"); finished_dispatcher(); } catch (RIFF::Exception e) { error_message = e.Message; error_dispatcher.emit(); } catch (...) { error_message = _("Unknown exception occurred"); error_dispatcher.emit(); } } Loader::Loader(const char* filename) : filename(filename), gig(0), thread(0), progress(0.f) { } void Loader::launch() { #ifdef OLD_THREADS thread = Glib::Thread::create(sigc::mem_fun(*this, &Loader::thread_function), true); #else thread = Glib::Threads::Thread::create(sigc::mem_fun(*this, &Loader::thread_function)); #endif printf("launch thread=%p\n", static_cast(thread)); } float Loader::get_progress() { float res; { Glib::Threads::Mutex::Lock lock(progressMutex); res = progress; } return res; } Glib::Dispatcher& Loader::signal_progress() { return progress_dispatcher; } Glib::Dispatcher& Loader::signal_finished() { return finished_dispatcher; } Glib::Dispatcher& Loader::signal_error() { return error_dispatcher; } void saver_progress_callback(gig::progress_t* progress) { Saver* saver = static_cast(progress->custom); saver->progress_callback(progress->factor); } void Saver::progress_callback(float fraction) { { Glib::Threads::Mutex::Lock lock(progressMutex); progress = fraction; } progress_dispatcher.emit(); } void Saver::thread_function() { printf("thread_function self=%p\n", static_cast(Glib::Threads::Thread::self())); printf("Start %s\n", filename.c_str()); try { gig::progress_t progress; progress.callback = saver_progress_callback; progress.custom = this; // if no filename was provided, that means "save", if filename was provided means "save as" if (filename.empty()) { gig->Save(&progress); } else { gig->Save(filename, &progress); } printf("End\n"); finished_dispatcher.emit(); } catch (RIFF::Exception e) { error_message = e.Message; error_dispatcher.emit(); } catch (...) { error_message = _("Unknown exception occurred"); error_dispatcher.emit(); } } Saver::Saver(gig::File* file, Glib::ustring filename) : gig(file), filename(filename), thread(0), progress(0.f) { } void Saver::launch() { #ifdef OLD_THREADS thread = Glib::Thread::create(sigc::mem_fun(*this, &Saver::thread_function), true); #else thread = Glib::Threads::Thread::create(sigc::mem_fun(*this, &Saver::thread_function)); #endif printf("launch thread=%p\n", static_cast(thread)); } float Saver::get_progress() { float res; { Glib::Threads::Mutex::Lock lock(progressMutex); res = progress; } return res; } Glib::Dispatcher& Saver::signal_progress() { return progress_dispatcher; } Glib::Dispatcher& Saver::signal_finished() { return finished_dispatcher; } Glib::Dispatcher& Saver::signal_error() { return error_dispatcher; } ProgressDialog::ProgressDialog(const Glib::ustring& title, Gtk::Window& parent) : Gtk::Dialog(title, parent, true) { get_vbox()->pack_start(progressBar); show_all_children(); resize(600,50); } // Clear all GUI elements / controls. This method is typically called // before a new .gig file is to be created or to be loaded. void MainWindow::__clear() { // forget all samples that ought to be imported m_SampleImportQueue.clear(); // clear the samples and instruments tree views m_refTreeModel->clear(); m_refSamplesTreeModel->clear(); m_refScriptsTreeModel->clear(); // remove all entries from "Instrument" menu while (!instrument_menu->get_children().empty()) { remove_instrument_from_menu(0); } // free libgig's gig::File instance if (file && !file_is_shared) delete file; file = NULL; set_file_is_shared(false); } void MainWindow::__refreshEntireGUI() { // clear the samples and instruments tree views m_refTreeModel->clear(); m_refSamplesTreeModel->clear(); m_refScriptsTreeModel->clear(); // remove all entries from "Instrument" menu while (!instrument_menu->get_children().empty()) { remove_instrument_from_menu(0); } if (!this->file) return; load_gig( this->file, this->file->pInfo->Name.c_str(), this->file_is_shared ); } void MainWindow::on_action_file_new() { if (!file_is_shared && file_is_changed && !close_confirmation_dialog()) return; if (file_is_shared && !leaving_shared_mode_dialog()) return; // clear all GUI elements __clear(); // create a new .gig file (virtually yet) gig::File* pFile = new gig::File; // already add one new instrument by default gig::Instrument* pInstrument = pFile->AddInstrument(); pInstrument->pInfo->Name = gig_from_utf8(_("Unnamed Instrument")); // update GUI with that new gig::File load_gig(pFile, 0 /*no file name yet*/); } bool MainWindow::close_confirmation_dialog() { gchar* msg = g_strdup_printf(_("Save changes to \"%s\" before closing?"), Glib::filename_display_basename(filename).c_str()); Gtk::MessageDialog dialog(*this, msg, false, Gtk::MESSAGE_WARNING, Gtk::BUTTONS_NONE); g_free(msg); dialog.set_secondary_text(_("If you close without saving, your changes will be lost.")); dialog.add_button(_("Close _Without Saving"), Gtk::RESPONSE_NO); dialog.add_button(_("_Cancel"), Gtk::RESPONSE_CANCEL); dialog.add_button(file_has_name ? _("_Save") : _("Save _As"), Gtk::RESPONSE_YES); dialog.set_default_response(Gtk::RESPONSE_YES); int response = dialog.run(); dialog.hide(); // user decided to exit app without saving if (response == Gtk::RESPONSE_NO) return true; // user cancelled dialog, thus don't close app if (response == Gtk::RESPONSE_CANCEL) return false; // TODO: the following return valid is disabled and hard coded instead for // now, due to the fact that saving with progress bar is now implemented // asynchronously, as a result the app does not close automatically anymore // after saving the file has completed // // if (response == Gtk::RESPONSE_YES) return file_save(); // return response != Gtk::RESPONSE_CANCEL; // if (response == Gtk::RESPONSE_YES) file_save(); return false; // always prevent closing the app for now (see comment above) } bool MainWindow::leaving_shared_mode_dialog() { Glib::ustring msg = _("Detach from sampler and proceed working stand-alone?"); Gtk::MessageDialog dialog(*this, msg, false, Gtk::MESSAGE_WARNING, Gtk::BUTTONS_NONE); dialog.set_secondary_text( _("If you proceed to work on another instrument file, it won't be " "used by the sampler until you tell the sampler explicitly to " "load it.")); dialog.add_button(_("_Yes, Detach"), Gtk::RESPONSE_YES); dialog.add_button(_("_Cancel"), Gtk::RESPONSE_CANCEL); dialog.set_default_response(Gtk::RESPONSE_CANCEL); int response = dialog.run(); dialog.hide(); return response == Gtk::RESPONSE_YES; } void MainWindow::on_action_file_open() { if (!file_is_shared && file_is_changed && !close_confirmation_dialog()) return; if (file_is_shared && !leaving_shared_mode_dialog()) return; Gtk::FileChooserDialog dialog(*this, _("Open file")); dialog.add_button(_("_Cancel"), Gtk::RESPONSE_CANCEL); dialog.add_button(_("_Open"), Gtk::RESPONSE_OK); dialog.set_default_response(Gtk::RESPONSE_OK); #if (GTKMM_MAJOR_VERSION == 2 && GTKMM_MINOR_VERSION < 90) || GTKMM_MAJOR_VERSION < 2 Gtk::FileFilter filter; filter.add_pattern("*.gig"); #else Glib::RefPtr filter = Gtk::FileFilter::create(); filter->add_pattern("*.gig"); #endif dialog.set_filter(filter); if (current_gig_dir != "") { dialog.set_current_folder(current_gig_dir); } if (dialog.run() == Gtk::RESPONSE_OK) { std::string filename = dialog.get_filename(); printf("filename=%s\n", filename.c_str()); printf("on_action_file_open self=%p\n", static_cast(Glib::Threads::Thread::self())); load_file(filename.c_str()); current_gig_dir = Glib::path_get_dirname(filename); } } void MainWindow::load_file(const char* name) { __clear(); progress_dialog = new ProgressDialog( //FIXME: memory leak! _("Loading") + Glib::ustring(" '") + Glib::filename_display_basename(name) + "' ...", *this ); progress_dialog->show_all(); loader = new Loader(name); //FIXME: memory leak! loader->signal_progress().connect( sigc::mem_fun(*this, &MainWindow::on_loader_progress)); loader->signal_finished().connect( sigc::mem_fun(*this, &MainWindow::on_loader_finished)); loader->signal_error().connect( sigc::mem_fun(*this, &MainWindow::on_loader_error)); loader->launch(); } void MainWindow::load_instrument(gig::Instrument* instr) { if (!instr) { Glib::ustring txt = "Provided instrument is NULL!\n"; Gtk::MessageDialog msg(*this, txt, false, Gtk::MESSAGE_ERROR); msg.run(); Gtk::Main::quit(); } // clear all GUI elements __clear(); // load the instrument gig::File* pFile = (gig::File*) instr->GetParent(); load_gig(pFile, 0 /*file name*/, true /*shared instrument*/); // automatically select the given instrument int i = 0; for (gig::Instrument* instrument = pFile->GetFirstInstrument(); instrument; instrument = pFile->GetNextInstrument(), ++i) { if (instrument == instr) { // select item in "instruments" tree view m_TreeView.get_selection()->select(Gtk::TreePath(ToString(i))); // make sure the selected item in the "instruments" tree view is // visible (scroll to it) m_TreeView.scroll_to_row(Gtk::TreePath(ToString(i))); // select item in instrument menu { const std::vector children = instrument_menu->get_children(); static_cast(children[i])->set_active(); } // update region chooser and dimension region chooser m_RegionChooser.set_instrument(instr); break; } } } void MainWindow::on_loader_progress() { progress_dialog->set_fraction(loader->get_progress()); } void MainWindow::on_loader_finished() { printf("Loader finished!\n"); printf("on_loader_finished self=%p\n", static_cast(Glib::Threads::Thread::self())); load_gig(loader->gig, loader->filename.c_str()); progress_dialog->hide(); } void MainWindow::on_loader_error() { Glib::ustring txt = _("Could not load file: ") + loader->error_message; Gtk::MessageDialog msg(*this, txt, false, Gtk::MESSAGE_ERROR); msg.run(); progress_dialog->hide(); } void MainWindow::on_action_file_save() { file_save(); } bool MainWindow::check_if_savable() { if (!file) return false; if (!file->GetFirstSample()) { Gtk::MessageDialog(*this, _("The file could not be saved " "because it contains no samples"), false, Gtk::MESSAGE_ERROR).run(); return false; } for (gig::Instrument* instrument = file->GetFirstInstrument() ; instrument ; instrument = file->GetNextInstrument()) { if (!instrument->GetFirstRegion()) { Gtk::MessageDialog(*this, _("The file could not be saved " "because there are instruments " "that have no regions"), false, Gtk::MESSAGE_ERROR).run(); return false; } } return true; } bool MainWindow::file_save() { if (!check_if_savable()) return false; if (!file_is_shared && !file_has_name) return file_save_as(); std::cout << "Saving file\n" << std::flush; file_structure_to_be_changed_signal.emit(this->file); progress_dialog = new ProgressDialog( //FIXME: memory leak! _("Saving") + Glib::ustring(" '") + Glib::filename_display_basename(this->filename) + "' ...", *this ); progress_dialog->show_all(); saver = new Saver(this->file); //FIXME: memory leak! saver->signal_progress().connect( sigc::mem_fun(*this, &MainWindow::on_saver_progress)); saver->signal_finished().connect( sigc::mem_fun(*this, &MainWindow::on_saver_finished)); saver->signal_error().connect( sigc::mem_fun(*this, &MainWindow::on_saver_error)); saver->launch(); return true; } void MainWindow::on_saver_progress() { progress_dialog->set_fraction(saver->get_progress()); } void MainWindow::on_saver_error() { file_structure_changed_signal.emit(this->file); Glib::ustring txt = _("Could not save file: ") + saver->error_message; Gtk::MessageDialog msg(*this, txt, false, Gtk::MESSAGE_ERROR); msg.run(); } void MainWindow::on_saver_finished() { this->file = saver->gig; this->filename = saver->filename; current_gig_dir = Glib::path_get_dirname(filename); set_title(Glib::filename_display_basename(filename)); file_has_name = true; file_is_changed = false; std::cout << "Saving file done. Importing queued samples now ...\n" << std::flush; __import_queued_samples(); std::cout << "Importing queued samples done.\n" << std::flush; file_structure_changed_signal.emit(this->file); __refreshEntireGUI(); progress_dialog->hide(); } void MainWindow::on_action_file_save_as() { if (!check_if_savable()) return; file_save_as(); } bool MainWindow::file_save_as() { Gtk::FileChooserDialog dialog(*this, _("Save As"), Gtk::FILE_CHOOSER_ACTION_SAVE); dialog.add_button(_("_Cancel"), Gtk::RESPONSE_CANCEL); dialog.add_button(_("_Save"), Gtk::RESPONSE_OK); dialog.set_default_response(Gtk::RESPONSE_OK); dialog.set_do_overwrite_confirmation(); #if (GTKMM_MAJOR_VERSION == 2 && GTKMM_MINOR_VERSION < 90) || GTKMM_MAJOR_VERSION < 2 Gtk::FileFilter filter; filter.add_pattern("*.gig"); #else Glib::RefPtr filter = Gtk::FileFilter::create(); filter->add_pattern("*.gig"); #endif dialog.set_filter(filter); // set initial dir and filename of the Save As dialog // and prepare that initial filename as a copy of the gig { std::string basename = Glib::path_get_basename(filename); std::string dir = Glib::path_get_dirname(filename); basename = std::string(_("copy_of_")) + basename; Glib::ustring copyFileName = Glib::build_filename(dir, basename); if (Glib::path_is_absolute(filename)) { dialog.set_filename(copyFileName); } else { if (current_gig_dir != "") dialog.set_current_folder(current_gig_dir); } dialog.set_current_name(Glib::filename_display_basename(copyFileName)); } // show warning in the dialog Gtk::HBox descriptionArea; descriptionArea.set_spacing(15); Gtk::Image warningIcon; warningIcon.set_from_icon_name("dialog-warning", Gtk::IconSize(Gtk::ICON_SIZE_DIALOG)); descriptionArea.pack_start(warningIcon, Gtk::PACK_SHRINK); #if GTKMM_MAJOR_VERSION < 3 view::WrapLabel description; #else Gtk::Label description; description.set_line_wrap(); #endif description.set_markup( _("\nCAUTION: You MUST use the " "\"Save\" dialog instead of " "\"Save As...\" if you want to save " "to the same .gig file. Using " "\"Save As...\" for writing to the " "same .gig file will end up in corrupted sample wave data!\n") ); descriptionArea.pack_start(description); dialog.get_vbox()->pack_start(descriptionArea, Gtk::PACK_SHRINK); descriptionArea.show_all(); if (dialog.run() == Gtk::RESPONSE_OK) { std::string filename = dialog.get_filename(); if (!Glib::str_has_suffix(filename, ".gig")) { filename += ".gig"; } printf("filename=%s\n", filename.c_str()); progress_dialog = new ProgressDialog( //FIXME: memory leak! _("Saving") + Glib::ustring(" '") + Glib::filename_display_basename(filename) + "' ...", *this ); progress_dialog->show_all(); saver = new Saver(file, filename); //FIXME: memory leak! saver->signal_progress().connect( sigc::mem_fun(*this, &MainWindow::on_saver_progress)); saver->signal_finished().connect( sigc::mem_fun(*this, &MainWindow::on_saver_finished)); saver->signal_error().connect( sigc::mem_fun(*this, &MainWindow::on_saver_error)); saver->launch(); return true; } return false; } // actually write the sample(s)' data to the gig file void MainWindow::__import_queued_samples() { std::cout << "Starting sample import\n" << std::flush; Glib::ustring error_files; printf("Samples to import: %d\n", int(m_SampleImportQueue.size())); for (std::list::iterator iter = m_SampleImportQueue.begin(); iter != m_SampleImportQueue.end(); ) { printf("Importing sample %s\n",(*iter).sample_path.c_str()); SF_INFO info; info.format = 0; SNDFILE* hFile = sf_open((*iter).sample_path.c_str(), SFM_READ, &info); sf_command(hFile, SFC_SET_SCALE_FLOAT_INT_READ, 0, SF_TRUE); try { if (!hFile) throw std::string(_("could not open file")); // determine sample's bit depth int bitdepth; switch (info.format & 0xff) { case SF_FORMAT_PCM_S8: case SF_FORMAT_PCM_16: case SF_FORMAT_PCM_U8: bitdepth = 16; break; case SF_FORMAT_PCM_24: case SF_FORMAT_PCM_32: case SF_FORMAT_FLOAT: case SF_FORMAT_DOUBLE: bitdepth = 24; break; default: sf_close(hFile); // close sound file throw std::string(_("format not supported")); // unsupported subformat (yet?) } const int bufsize = 10000; switch (bitdepth) { case 16: { short* buffer = new short[bufsize * info.channels]; sf_count_t cnt = info.frames; while (cnt) { // libsndfile does the conversion for us (if needed) int n = sf_readf_short(hFile, buffer, bufsize); // write from buffer directly (physically) into .gig file iter->gig_sample->Write(buffer, n); cnt -= n; } delete[] buffer; break; } case 24: { int* srcbuf = new int[bufsize * info.channels]; uint8_t* dstbuf = new uint8_t[bufsize * 3 * info.channels]; sf_count_t cnt = info.frames; while (cnt) { // libsndfile returns 32 bits, convert to 24 int n = sf_readf_int(hFile, srcbuf, bufsize); int j = 0; for (int i = 0 ; i < n * info.channels ; i++) { dstbuf[j++] = srcbuf[i] >> 8; dstbuf[j++] = srcbuf[i] >> 16; dstbuf[j++] = srcbuf[i] >> 24; } // write from buffer directly (physically) into .gig file iter->gig_sample->Write(dstbuf, n); cnt -= n; } delete[] srcbuf; delete[] dstbuf; break; } } // cleanup sf_close(hFile); // let the sampler re-cache the sample if needed sample_changed_signal.emit(iter->gig_sample); // on success we remove the sample from the import queue, // otherwise keep it, maybe it works the next time ? std::list::iterator cur = iter; ++iter; m_SampleImportQueue.erase(cur); } catch (std::string what) { // remember the files that made trouble (and their cause) if (!error_files.empty()) error_files += "\n"; error_files += (*iter).sample_path += " (" + what + ")"; ++iter; } } // show error message box when some sample(s) could not be imported if (!error_files.empty()) { Glib::ustring txt = _("Could not import the following sample(s):\n") + error_files; Gtk::MessageDialog msg(*this, txt, false, Gtk::MESSAGE_ERROR); msg.run(); } } void MainWindow::on_action_file_properties() { propDialog.show(); propDialog.deiconify(); } void MainWindow::on_action_warn_user_on_extensions() { Settings::singleton()->warnUserOnExtensions = !Settings::singleton()->warnUserOnExtensions; } void MainWindow::on_action_sync_sampler_instrument_selection() { Settings::singleton()->syncSamplerInstrumentSelection = !Settings::singleton()->syncSamplerInstrumentSelection; } void MainWindow::on_action_move_root_note_with_region_moved() { Settings::singleton()->moveRootNoteWithRegionMoved = !Settings::singleton()->moveRootNoteWithRegionMoved; } void MainWindow::on_action_help_about() { Gtk::AboutDialog dialog; #if (GTKMM_MAJOR_VERSION == 2 && GTKMM_MINOR_VERSION >= 12) || GTKMM_MAJOR_VERSION > 2 dialog.set_program_name("Gigedit"); #else dialog.set_name("Gigedit"); #endif dialog.set_version(VERSION); dialog.set_copyright("Copyright (C) 2006-2015 Andreas Persson"); const std::string sComment = _("Built " __DATE__ "\nUsing ") + ::gig::libraryName() + " " + ::gig::libraryVersion() + "\n\n" + _( "Gigedit is released under the GNU General Public License.\n" "\n" "This program is distributed WITHOUT ANY WARRANTY; So better " "backup your Gigasampler/GigaStudio files before editing them with " "this application.\n" "\n" "Please report bugs to: http://bugs.linuxsampler.org" ); dialog.set_comments(sComment.c_str()); dialog.set_website("http://www.linuxsampler.org"); dialog.set_website_label("http://www.linuxsampler.org"); dialog.run(); } PropDialog::PropDialog() : eFileFormat(_("File Format")), eName(_("Name")), eCreationDate(_("Creation date")), eComments(_("Comments")), eProduct(_("Product")), eCopyright(_("Copyright")), eArtists(_("Artists")), eGenre(_("Genre")), eKeywords(_("Keywords")), eEngineer(_("Engineer")), eTechnician(_("Technician")), eSoftware(_("Software")), eMedium(_("Medium")), eSource(_("Source")), eSourceForm(_("Source form")), eCommissioned(_("Commissioned")), eSubject(_("Subject")), quitButton(_("_Close"), true), table(2, 1), m_file(NULL) { set_title(_("File Properties")); eName.set_width_chars(50); connect(eName, &DLS::Info::Name); connect(eCreationDate, &DLS::Info::CreationDate); connect(eComments, &DLS::Info::Comments); connect(eProduct, &DLS::Info::Product); connect(eCopyright, &DLS::Info::Copyright); connect(eArtists, &DLS::Info::Artists); connect(eGenre, &DLS::Info::Genre); connect(eKeywords, &DLS::Info::Keywords); connect(eEngineer, &DLS::Info::Engineer); connect(eTechnician, &DLS::Info::Technician); connect(eSoftware, &DLS::Info::Software); connect(eMedium, &DLS::Info::Medium); connect(eSource, &DLS::Info::Source); connect(eSourceForm, &DLS::Info::SourceForm); connect(eCommissioned, &DLS::Info::Commissioned); connect(eSubject, &DLS::Info::Subject); table.add(eFileFormat); table.add(eName); table.add(eCreationDate); table.add(eComments); table.add(eProduct); table.add(eCopyright); table.add(eArtists); table.add(eGenre); table.add(eKeywords); table.add(eEngineer); table.add(eTechnician); table.add(eSoftware); table.add(eMedium); table.add(eSource); table.add(eSourceForm); table.add(eCommissioned); table.add(eSubject); table.set_col_spacings(5); add(vbox); table.set_border_width(5); vbox.add(table); vbox.pack_start(buttonBox, Gtk::PACK_SHRINK); buttonBox.set_layout(Gtk::BUTTONBOX_END); buttonBox.set_border_width(5); buttonBox.show(); buttonBox.pack_start(quitButton); quitButton.set_can_default(); quitButton.grab_focus(); quitButton.signal_clicked().connect( sigc::mem_fun(*this, &PropDialog::hide)); eFileFormat.signal_value_changed().connect( sigc::mem_fun(*this, &PropDialog::onFileFormatChanged)); quitButton.show(); vbox.show(); show_all_children(); } void PropDialog::set_file(gig::File* file) { m_file = file; // update file format version combo box const std::string sGiga = "Gigasampler/GigaStudio v"; const int major = file->pVersion->major; std::vector txts; std::vector values; txts.push_back(sGiga + "2"); values.push_back(2); txts.push_back(sGiga + "3/v4"); values.push_back(3); if (major != 2 && major != 3) { txts.push_back(sGiga + ToString(major)); values.push_back(major); } std::vector texts; for (int i = 0; i < txts.size(); ++i) texts.push_back(txts[i].c_str()); texts.push_back(NULL); values.push_back(0); eFileFormat.set_choices(&texts[0], &values[0]); eFileFormat.set_value(major); } void PropDialog::onFileFormatChanged() { const int major = eFileFormat.get_value(); if (m_file) m_file->pVersion->major = major; } void PropDialog::set_info(DLS::Info* info) { update(info); } void InstrumentProps::set_Name(const gig::String& name) { m->pInfo->Name = name; } void InstrumentProps::update_name() { update_model++; eName.set_value(m->pInfo->Name); update_model--; } void InstrumentProps::set_IsDrum(bool value) { m->IsDrum = value; } void InstrumentProps::set_MIDIBank(uint16_t value) { m->MIDIBank = value; } void InstrumentProps::set_MIDIProgram(uint32_t value) { m->MIDIProgram = value; } InstrumentProps::InstrumentProps() : quitButton(_("_Close"), true), table(2,1), eName(_("Name")), eIsDrum(_("Is drum")), eMIDIBank(_("MIDI bank"), 0, 16383), eMIDIProgram(_("MIDI program")), eAttenuation(_("Attenuation"), 0, 96, 0, 1), eGainPlus6(_("Gain +6dB"), eAttenuation, -6), eEffectSend(_("Effect send"), 0, 65535), eFineTune(_("Fine tune"), -8400, 8400), ePitchbendRange(_("Pitchbend range"), 0, 12), ePianoReleaseMode(_("Piano release mode")), eDimensionKeyRangeLow(_("Keyswitching range low")), eDimensionKeyRangeHigh(_("Keyswitching range high")) { set_title(_("Instrument Properties")); eDimensionKeyRangeLow.set_tip( _("start of the keyboard area which should switch the " "\"keyswitching\" dimension") ); eDimensionKeyRangeHigh.set_tip( _("end of the keyboard area which should switch the " "\"keyswitching\" dimension") ); connect(eName, &InstrumentProps::set_Name); connect(eIsDrum, &InstrumentProps::set_IsDrum); connect(eMIDIBank, &InstrumentProps::set_MIDIBank); connect(eMIDIProgram, &InstrumentProps::set_MIDIProgram); connect(eAttenuation, &gig::Instrument::Attenuation); connect(eGainPlus6, &gig::Instrument::Attenuation); connect(eEffectSend, &gig::Instrument::EffectSend); connect(eFineTune, &gig::Instrument::FineTune); connect(ePitchbendRange, &gig::Instrument::PitchbendRange); connect(ePianoReleaseMode, &gig::Instrument::PianoReleaseMode); connect(eDimensionKeyRangeLow, eDimensionKeyRangeHigh, &gig::Instrument::DimensionKeyRange); eName.signal_value_changed().connect(sig_name_changed.make_slot()); table.set_col_spacings(5); table.add(eName); table.add(eIsDrum); table.add(eMIDIBank); table.add(eMIDIProgram); table.add(eAttenuation); table.add(eGainPlus6); table.add(eEffectSend); table.add(eFineTune); table.add(ePitchbendRange); table.add(ePianoReleaseMode); table.add(eDimensionKeyRangeLow); table.add(eDimensionKeyRangeHigh); add(vbox); table.set_border_width(5); vbox.pack_start(table); table.show(); vbox.pack_start(buttonBox, Gtk::PACK_SHRINK); buttonBox.set_layout(Gtk::BUTTONBOX_END); buttonBox.set_border_width(5); buttonBox.show(); buttonBox.pack_start(quitButton); quitButton.set_can_default(); quitButton.grab_focus(); quitButton.signal_clicked().connect( sigc::mem_fun(*this, &InstrumentProps::hide)); quitButton.show(); vbox.show(); show_all_children(); } void InstrumentProps::set_instrument(gig::Instrument* instrument) { update(instrument); update_model++; eName.set_value(instrument->pInfo->Name); eIsDrum.set_value(instrument->IsDrum); eMIDIBank.set_value(instrument->MIDIBank); eMIDIProgram.set_value(instrument->MIDIProgram); update_model--; } void MainWindow::file_changed() { if (file && !file_is_changed) { set_title("*" + get_title()); file_is_changed = true; } } void MainWindow::updateSampleRefCountMap(gig::File* gig) { sample_ref_count.clear(); if (!gig) return; for (gig::Instrument* instrument = gig->GetFirstInstrument(); instrument; instrument = gig->GetNextInstrument()) { for (gig::Region* rgn = instrument->GetFirstRegion(); rgn; rgn = instrument->GetNextRegion()) { for (int i = 0; i < 256; ++i) { if (!rgn->pDimensionRegions[i]) continue; if (rgn->pDimensionRegions[i]->pSample) { sample_ref_count[rgn->pDimensionRegions[i]->pSample]++; } } } } } void MainWindow::load_gig(gig::File* gig, const char* filename, bool isSharedInstrument) { file = 0; set_file_is_shared(isSharedInstrument); this->filename = (filename && strlen(filename) > 0) ? filename : (!gig->GetFileName().empty()) ? gig->GetFileName() : _("Unsaved Gig File"); set_title(Glib::filename_display_basename(this->filename)); file_has_name = filename; file_is_changed = false; propDialog.set_file(gig); propDialog.set_info(gig->pInfo); instrument_name_connection.block(); for (gig::Instrument* instrument = gig->GetFirstInstrument() ; instrument ; instrument = gig->GetNextInstrument()) { Glib::ustring name(gig_to_utf8(instrument->pInfo->Name)); Gtk::TreeModel::iterator iter = m_refTreeModel->append(); Gtk::TreeModel::Row row = *iter; row[m_Columns.m_col_name] = name; row[m_Columns.m_col_instr] = instrument; add_instrument_to_menu(name); } instrument_name_connection.unblock(); uiManager->get_widget("/MenuBar/MenuInstrument/AllInstruments")->show(); updateSampleRefCountMap(gig); for (gig::Group* group = gig->GetFirstGroup(); group; group = gig->GetNextGroup()) { if (group->Name != "") { Gtk::TreeModel::iterator iterGroup = m_refSamplesTreeModel->append(); Gtk::TreeModel::Row rowGroup = *iterGroup; rowGroup[m_SamplesModel.m_col_name] = gig_to_utf8(group->Name); rowGroup[m_SamplesModel.m_col_group] = group; rowGroup[m_SamplesModel.m_col_sample] = NULL; for (gig::Sample* sample = group->GetFirstSample(); sample; sample = group->GetNextSample()) { Gtk::TreeModel::iterator iterSample = m_refSamplesTreeModel->append(rowGroup.children()); Gtk::TreeModel::Row rowSample = *iterSample; rowSample[m_SamplesModel.m_col_name] = gig_to_utf8(sample->pInfo->Name); rowSample[m_SamplesModel.m_col_sample] = sample; rowSample[m_SamplesModel.m_col_group] = NULL; int refcount = sample_ref_count.count(sample) ? sample_ref_count[sample] : 0; rowSample[m_SamplesModel.m_col_refcount] = ToString(refcount) + " " + _("Refs."); rowSample[m_SamplesModel.m_color] = refcount ? "black" : "red"; } } } for (int i = 0; gig->GetScriptGroup(i); ++i) { gig::ScriptGroup* group = gig->GetScriptGroup(i); Gtk::TreeModel::iterator iterGroup = m_refScriptsTreeModel->append(); Gtk::TreeModel::Row rowGroup = *iterGroup; rowGroup[m_ScriptsModel.m_col_name] = gig_to_utf8(group->Name); rowGroup[m_ScriptsModel.m_col_group] = group; rowGroup[m_ScriptsModel.m_col_script] = NULL; for (int s = 0; group->GetScript(s); ++s) { gig::Script* script = group->GetScript(s); Gtk::TreeModel::iterator iterScript = m_refScriptsTreeModel->append(rowGroup.children()); Gtk::TreeModel::Row rowScript = *iterScript; rowScript[m_ScriptsModel.m_col_name] = gig_to_utf8(script->Name); rowScript[m_ScriptsModel.m_col_script] = script; rowScript[m_ScriptsModel.m_col_group] = NULL; } } // unfold all sample groups & script groups by default m_TreeViewSamples.expand_all(); m_TreeViewScripts.expand_all(); file = gig; // select the first instrument m_TreeView.get_selection()->select(Gtk::TreePath("0")); instr_props_set_instrument(); gig::Instrument* instrument = get_instrument(); if (instrument) { midiRules.set_instrument(instrument); } } bool MainWindow::instr_props_set_instrument() { instrumentProps.signal_name_changed().clear(); Gtk::TreeModel::const_iterator it = m_TreeView.get_selection()->get_selected(); if (it) { Gtk::TreeModel::Row row = *it; gig::Instrument* instrument = row[m_Columns.m_col_instr]; instrumentProps.set_instrument(instrument); // make sure instrument tree is updated when user changes the // instrument name in instrument properties window instrumentProps.signal_name_changed().connect( sigc::bind( sigc::mem_fun(*this, &MainWindow::instr_name_changed_by_instr_props), it)); } else { instrumentProps.hide(); } return it; } void MainWindow::show_instr_props() { if (instr_props_set_instrument()) { instrumentProps.show(); instrumentProps.deiconify(); } } void MainWindow::instr_name_changed_by_instr_props(Gtk::TreeModel::iterator& it) { Gtk::TreeModel::Row row = *it; Glib::ustring name = row[m_Columns.m_col_name]; gig::Instrument* instrument = row[m_Columns.m_col_instr]; Glib::ustring gigname(gig_to_utf8(instrument->pInfo->Name)); if (gigname != name) { row[m_Columns.m_col_name] = gigname; } } void MainWindow::show_midi_rules() { if (gig::Instrument* instrument = get_instrument()) { midiRules.set_instrument(instrument); midiRules.show(); midiRules.deiconify(); } } void MainWindow::show_script_slots() { if (!file) return; // get selected instrument Glib::RefPtr sel = m_TreeView.get_selection(); Gtk::TreeModel::iterator it = sel->get_selected(); if (!it) return; Gtk::TreeModel::Row row = *it; gig::Instrument* instrument = row[m_Columns.m_col_instr]; if (!instrument) return; ScriptSlots* window = new ScriptSlots; window->setInstrument(instrument); //window->reparent(*this); window->show(); } void MainWindow::on_action_refresh_all() { __refreshEntireGUI(); } void MainWindow::on_action_view_status_bar() { Gtk::CheckMenuItem* item = dynamic_cast(uiManager->get_widget("/MenuBar/MenuView/Statusbar")); if (!item) { std::cerr << "/MenuBar/MenuView/Statusbar == NULL\n"; return; } if (item->get_active()) m_StatusBar.show(); else m_StatusBar.hide(); } bool MainWindow::is_copy_samples_unity_note_enabled() const { Gtk::CheckMenuItem* item = dynamic_cast(uiManager->get_widget("/MenuBar/MenuEdit/CopySampleUnity")); if (!item) { std::cerr << "/MenuBar/MenuEdit/CopySampleUnity == NULL\n"; return true; } return item->get_active(); } bool MainWindow::is_copy_samples_fine_tune_enabled() const { Gtk::CheckMenuItem* item = dynamic_cast(uiManager->get_widget("/MenuBar/MenuEdit/CopySampleTune")); if (!item) { std::cerr << "/MenuBar/MenuEdit/CopySampleTune == NULL\n"; return true; } return item->get_active(); } bool MainWindow::is_copy_samples_loop_enabled() const { Gtk::CheckMenuItem* item = dynamic_cast(uiManager->get_widget("/MenuBar/MenuEdit/CopySampleLoop")); if (!item) { std::cerr << "/MenuBar/MenuEdit/CopySampleLoop == NULL\n"; return true; } return item->get_active(); } void MainWindow::on_button_release(GdkEventButton* button) { if (button->type == GDK_2BUTTON_PRESS) { show_instr_props(); } else if (button->type == GDK_BUTTON_PRESS && button->button == 3) { // gig v2 files have no midi rules const bool bEnabled = !(file->pVersion && file->pVersion->major == 2); static_cast( uiManager->get_widget("/MenuBar/MenuInstrument/MidiRules"))->set_sensitive( bEnabled ); static_cast( uiManager->get_widget("/PopupMenu/MidiRules"))->set_sensitive( bEnabled ); popup_menu->popup(button->button, button->time); } } void MainWindow::on_instrument_selection_change(Gtk::RadioMenuItem* item) { if (item->get_active()) { const std::vector children = instrument_menu->get_children(); std::vector::const_iterator it = find(children.begin(), children.end(), item); if (it != children.end()) { int index = it - children.begin(); m_TreeView.get_selection()->select(Gtk::TreePath(ToString(index))); m_RegionChooser.set_instrument(file->GetInstrument(index)); } } } void MainWindow::select_instrument(gig::Instrument* instrument) { if (!instrument) return; Glib::RefPtr model = m_TreeView.get_model(); for (int i = 0; i < model->children().size(); ++i) { Gtk::TreeModel::Row row = model->children()[i]; if (row[m_Columns.m_col_instr] == instrument) { // select and show the respective instrument in the list view show_intruments_tab(); m_TreeView.get_selection()->select(model->children()[i]); Gtk::TreePath path( m_TreeView.get_selection()->get_selected() ); m_TreeView.scroll_to_row(path); on_sel_change(); // the regular instrument selection change callback } } } /// Returns true if requested dimension region was successfully selected and scrolled to in the list view, false on error. bool MainWindow::select_dimension_region(gig::DimensionRegion* dimRgn) { gig::Region* pRegion = (gig::Region*) dimRgn->GetParent(); gig::Instrument* pInstrument = (gig::Instrument*) pRegion->GetParent(); Glib::RefPtr model = m_TreeView.get_model(); for (int i = 0; i < model->children().size(); ++i) { Gtk::TreeModel::Row row = model->children()[i]; if (row[m_Columns.m_col_instr] == pInstrument) { // select and show the respective instrument in the list view show_intruments_tab(); m_TreeView.get_selection()->select(model->children()[i]); Gtk::TreePath path( m_TreeView.get_selection()->get_selected() ); m_TreeView.scroll_to_row(path); on_sel_change(); // the regular instrument selection change callback // select respective region in the region selector m_RegionChooser.set_region(pRegion); // select and show the respective dimension region in the editor //update_dimregs(); if (!m_DimRegionChooser.select_dimregion(dimRgn)) return false; //dimreg_edit.set_dim_region(dimRgn); return true; } } return false; } void MainWindow::select_sample(gig::Sample* sample) { Glib::RefPtr model = m_TreeViewSamples.get_model(); for (int g = 0; g < model->children().size(); ++g) { Gtk::TreeModel::Row rowGroup = model->children()[g]; for (int s = 0; s < rowGroup.children().size(); ++s) { Gtk::TreeModel::Row rowSample = rowGroup.children()[s]; if (rowSample[m_SamplesModel.m_col_sample] == sample) { show_samples_tab(); m_TreeViewSamples.get_selection()->select(rowGroup.children()[s]); Gtk::TreePath path( m_TreeViewSamples.get_selection()->get_selected() ); m_TreeViewSamples.scroll_to_row(path); return; } } } } void MainWindow::on_sample_treeview_button_release(GdkEventButton* button) { if (button->type == GDK_BUTTON_PRESS && button->button == 3) { Gtk::Menu* sample_popup = dynamic_cast(uiManager->get_widget("/SamplePopupMenu")); // update enabled/disabled state of sample popup items Glib::RefPtr sel = m_TreeViewSamples.get_selection(); Gtk::TreeModel::iterator it = sel->get_selected(); bool group_selected = false; bool sample_selected = false; if (it) { Gtk::TreeModel::Row row = *it; group_selected = row[m_SamplesModel.m_col_group]; sample_selected = row[m_SamplesModel.m_col_sample]; } dynamic_cast(uiManager->get_widget("/SamplePopupMenu/SampleProperties"))-> set_sensitive(group_selected || sample_selected); dynamic_cast(uiManager->get_widget("/SamplePopupMenu/AddSample"))-> set_sensitive(group_selected || sample_selected); dynamic_cast(uiManager->get_widget("/SamplePopupMenu/AddGroup"))-> set_sensitive(file); dynamic_cast(uiManager->get_widget("/SamplePopupMenu/ShowSampleRefs"))-> set_sensitive(sample_selected); dynamic_cast(uiManager->get_widget("/SamplePopupMenu/RemoveSample"))-> set_sensitive(group_selected || sample_selected); // show sample popup sample_popup->popup(button->button, button->time); dynamic_cast(uiManager->get_widget("/MenuBar/MenuSample/SampleProperties"))-> set_sensitive(group_selected || sample_selected); dynamic_cast(uiManager->get_widget("/MenuBar/MenuSample/AddSample"))-> set_sensitive(group_selected || sample_selected); dynamic_cast(uiManager->get_widget("/MenuBar/MenuSample/AddGroup"))-> set_sensitive(file); dynamic_cast(uiManager->get_widget("/MenuBar/MenuSample/ShowSampleRefs"))-> set_sensitive(sample_selected); dynamic_cast(uiManager->get_widget("/MenuBar/MenuSample/RemoveSample"))-> set_sensitive(group_selected || sample_selected); } } void MainWindow::on_script_treeview_button_release(GdkEventButton* button) { if (button->type == GDK_BUTTON_PRESS && button->button == 3) { Gtk::Menu* script_popup = dynamic_cast(uiManager->get_widget("/ScriptPopupMenu")); // update enabled/disabled state of sample popup items Glib::RefPtr sel = m_TreeViewScripts.get_selection(); Gtk::TreeModel::iterator it = sel->get_selected(); bool group_selected = false; bool script_selected = false; if (it) { Gtk::TreeModel::Row row = *it; group_selected = row[m_ScriptsModel.m_col_group]; script_selected = row[m_ScriptsModel.m_col_script]; } dynamic_cast(uiManager->get_widget("/ScriptPopupMenu/AddScript"))-> set_sensitive(group_selected || script_selected); dynamic_cast(uiManager->get_widget("/ScriptPopupMenu/AddScriptGroup"))-> set_sensitive(file); dynamic_cast(uiManager->get_widget("/ScriptPopupMenu/EditScript"))-> set_sensitive(script_selected); dynamic_cast(uiManager->get_widget("/ScriptPopupMenu/RemoveScript"))-> set_sensitive(group_selected || script_selected); // show sample popup script_popup->popup(button->button, button->time); dynamic_cast(uiManager->get_widget("/MenuBar/MenuScript/AddScript"))-> set_sensitive(group_selected || script_selected); dynamic_cast(uiManager->get_widget("/MenuBar/MenuScript/AddScriptGroup"))-> set_sensitive(file); dynamic_cast(uiManager->get_widget("/MenuBar/MenuScript/EditScript"))-> set_sensitive(script_selected); dynamic_cast(uiManager->get_widget("/MenuBar/MenuScript/RemoveScript"))-> set_sensitive(group_selected || script_selected); } } Gtk::RadioMenuItem* MainWindow::add_instrument_to_menu( const Glib::ustring& name, int position) { Gtk::RadioMenuItem::Group instrument_group; const std::vector children = instrument_menu->get_children(); if (!children.empty()) { instrument_group = static_cast(children[0])->get_group(); } Gtk::RadioMenuItem* item = new Gtk::RadioMenuItem(instrument_group, name); if (position < 0) { instrument_menu->append(*item); } else { instrument_menu->insert(*item, position); } item->show(); item->signal_activate().connect( sigc::bind( sigc::mem_fun(*this, &MainWindow::on_instrument_selection_change), item)); return item; } void MainWindow::remove_instrument_from_menu(int index) { const std::vector children = instrument_menu->get_children(); Gtk::Widget* child = children[index]; instrument_menu->remove(*child); delete child; } void MainWindow::add_instrument(gig::Instrument* instrument) { const Glib::ustring name(gig_to_utf8(instrument->pInfo->Name)); // update instrument tree view instrument_name_connection.block(); Gtk::TreeModel::iterator iterInstr = m_refTreeModel->append(); Gtk::TreeModel::Row rowInstr = *iterInstr; rowInstr[m_Columns.m_col_name] = name; rowInstr[m_Columns.m_col_instr] = instrument; instrument_name_connection.unblock(); add_instrument_to_menu(name); m_TreeView.get_selection()->select(iterInstr); file_changed(); } void MainWindow::on_action_add_instrument() { static int __instrument_indexer = 0; if (!file) return; gig::Instrument* instrument = file->AddInstrument(); __instrument_indexer++; instrument->pInfo->Name = gig_from_utf8(_("Unnamed Instrument ") + ToString(__instrument_indexer)); add_instrument(instrument); } void MainWindow::on_action_duplicate_instrument() { if (!file) return; // retrieve the currently selected instrument // (being the original instrument to be duplicated) Glib::RefPtr sel = m_TreeView.get_selection(); Gtk::TreeModel::iterator itSelection = sel->get_selected(); if (!itSelection) return; Gtk::TreeModel::Row row = *itSelection; gig::Instrument* instrOrig = row[m_Columns.m_col_instr]; if (!instrOrig) return; // duplicate the orginal instrument gig::Instrument* instrNew = file->AddDuplicateInstrument(instrOrig); instrNew->pInfo->Name = instrOrig->pInfo->Name + gig_from_utf8(Glib::ustring(" (") + _("Copy") + ")"); add_instrument(instrNew); } void MainWindow::on_action_remove_instrument() { if (!file) return; if (file_is_shared) { Gtk::MessageDialog msg( *this, _("You cannot delete an instrument from this file, since it's " "currently used by the sampler."), false, Gtk::MESSAGE_INFO ); msg.run(); return; } Glib::RefPtr sel = m_TreeView.get_selection(); Gtk::TreeModel::iterator it = sel->get_selected(); if (it) { Gtk::TreeModel::Row row = *it; gig::Instrument* instr = row[m_Columns.m_col_instr]; try { Gtk::TreePath path(it); int index = path[0]; // remove instrument from the gig file if (instr) file->DeleteInstrument(instr); file_changed(); remove_instrument_from_menu(index); // remove row from instruments tree view m_refTreeModel->erase(it); #if GTKMM_MAJOR_VERSION < 3 // select another instrument (in gtk3 this is done // automatically) if (!m_refTreeModel->children().empty()) { if (index == m_refTreeModel->children().size()) { index--; } m_TreeView.get_selection()->select( Gtk::TreePath(ToString(index))); } #endif instr_props_set_instrument(); instr = get_instrument(); if (instr) { midiRules.set_instrument(instr); } else { midiRules.hide(); } } catch (RIFF::Exception e) { Gtk::MessageDialog msg(*this, e.Message.c_str(), false, Gtk::MESSAGE_ERROR); msg.run(); } } } void MainWindow::on_action_sample_properties() { //TODO: show a dialog where the selected sample's properties can be edited Gtk::MessageDialog msg( *this, _("Sorry, yet to be implemented!"), false, Gtk::MESSAGE_INFO ); msg.run(); } void MainWindow::on_action_add_script_group() { static int __script_indexer = 0; if (!file) return; gig::ScriptGroup* group = file->AddScriptGroup(); group->Name = gig_from_utf8(_("Unnamed Group")); if (__script_indexer) group->Name += " " + ToString(__script_indexer); __script_indexer++; // update sample tree view Gtk::TreeModel::iterator iterGroup = m_refScriptsTreeModel->append(); Gtk::TreeModel::Row rowGroup = *iterGroup; rowGroup[m_ScriptsModel.m_col_name] = gig_to_utf8(group->Name); rowGroup[m_ScriptsModel.m_col_script] = NULL; rowGroup[m_ScriptsModel.m_col_group] = group; file_changed(); } void MainWindow::on_action_add_script() { if (!file) return; // get selected group Glib::RefPtr sel = m_TreeViewScripts.get_selection(); Gtk::TreeModel::iterator it = sel->get_selected(); if (!it) return; Gtk::TreeModel::Row row = *it; gig::ScriptGroup* group = row[m_ScriptsModel.m_col_group]; if (!group) { // not a group, but a script is selected (probably) gig::Script* script = row[m_ScriptsModel.m_col_script]; if (!script) return; it = row.parent(); // resolve parent (that is the script's group) if (!it) return; row = *it; group = row[m_ScriptsModel.m_col_group]; if (!group) return; } // add a new script to the .gig file gig::Script* script = group->AddScript(); Glib::ustring name = _("Unnamed Script"); script->Name = gig_from_utf8(name); // add script to the tree view Gtk::TreeModel::iterator iterScript = m_refScriptsTreeModel->append(row.children()); Gtk::TreeModel::Row rowScript = *iterScript; rowScript[m_ScriptsModel.m_col_name] = name; rowScript[m_ScriptsModel.m_col_script] = script; rowScript[m_ScriptsModel.m_col_group] = NULL; // unfold group of new script item in treeview Gtk::TreeModel::Path path(iterScript); m_TreeViewScripts.expand_to_path(path); } void MainWindow::on_action_edit_script() { if (!file) return; // get selected script Glib::RefPtr sel = m_TreeViewScripts.get_selection(); Gtk::TreeModel::iterator it = sel->get_selected(); if (!it) return; Gtk::TreeModel::Row row = *it; gig::Script* script = row[m_ScriptsModel.m_col_script]; if (!script) return; ScriptEditor* editor = new ScriptEditor; editor->setScript(script); //editor->reparent(*this); editor->show(); } void MainWindow::on_action_remove_script() { if (!file) return; Glib::RefPtr sel = m_TreeViewScripts.get_selection(); Gtk::TreeModel::iterator it = sel->get_selected(); if (it) { Gtk::TreeModel::Row row = *it; gig::ScriptGroup* group = row[m_ScriptsModel.m_col_group]; gig::Script* script = row[m_ScriptsModel.m_col_script]; Glib::ustring name = row[m_ScriptsModel.m_col_name]; try { // remove script group or script from the gig file if (group) { // notify everybody that we're going to remove these samples //TODO: scripts_to_be_removed_signal.emit(members); // delete the group in the .gig file including the // samples that belong to the group file->DeleteScriptGroup(group); // notify that we're done with removal //TODO: scripts_removed_signal.emit(); file_changed(); } else if (script) { // notify everybody that we're going to remove this sample //TODO: std::list lscripts; //TODO: lscripts.push_back(script); //TODO: scripts_to_be_removed_signal.emit(lscripts); // remove sample from the .gig file script->GetGroup()->DeleteScript(script); // notify that we're done with removal //TODO: scripts_removed_signal.emit(); dimreg_changed(); file_changed(); } // remove respective row(s) from samples tree view m_refScriptsTreeModel->erase(it); } catch (RIFF::Exception e) { // pretend we're done with removal (i.e. to avoid dead locks) //TODO: scripts_removed_signal.emit(); // show error message Gtk::MessageDialog msg(*this, e.Message.c_str(), false, Gtk::MESSAGE_ERROR); msg.run(); } } } void MainWindow::on_action_add_group() { static int __sample_indexer = 0; if (!file) return; gig::Group* group = file->AddGroup(); group->Name = gig_from_utf8(_("Unnamed Group")); if (__sample_indexer) group->Name += " " + ToString(__sample_indexer); __sample_indexer++; // update sample tree view Gtk::TreeModel::iterator iterGroup = m_refSamplesTreeModel->append(); Gtk::TreeModel::Row rowGroup = *iterGroup; rowGroup[m_SamplesModel.m_col_name] = gig_to_utf8(group->Name); rowGroup[m_SamplesModel.m_col_sample] = NULL; rowGroup[m_SamplesModel.m_col_group] = group; file_changed(); } void MainWindow::on_action_replace_sample() { add_or_replace_sample(true); } void MainWindow::on_action_add_sample() { add_or_replace_sample(false); } void MainWindow::add_or_replace_sample(bool replace) { if (!file) return; // get selected group (and probably selected sample) Glib::RefPtr sel = m_TreeViewSamples.get_selection(); Gtk::TreeModel::iterator it = sel->get_selected(); if (!it) return; Gtk::TreeModel::Row row = *it; gig::Sample* sample = NULL; gig::Group* group = row[m_SamplesModel.m_col_group]; if (!group) { // not a group, but a sample is selected (probably) if (replace) sample = row[m_SamplesModel.m_col_sample]; if (!row[m_SamplesModel.m_col_sample]) return; it = row.parent(); // resolve parent (that is the sample's group) if (!it) return; if (!replace) row = *it; group = (*it)[m_SamplesModel.m_col_group]; if (!group) return; } if (replace && !sample) return; // show 'browse for file' dialog Gtk::FileChooserDialog dialog(*this, replace ? _("Replace Sample with") : _("Add Sample(s)")); dialog.add_button(_("_Cancel"), Gtk::RESPONSE_CANCEL); dialog.add_button(_("_Open"), Gtk::RESPONSE_OK); dialog.set_select_multiple(!replace); // allow multi audio file selection only when adding new samples, does not make sense when replacing a specific sample // matches all file types supported by libsndfile #if (GTKMM_MAJOR_VERSION == 2 && GTKMM_MINOR_VERSION < 90) || GTKMM_MAJOR_VERSION < 2 Gtk::FileFilter soundfilter; #else Glib::RefPtr soundfilter = Gtk::FileFilter::create(); #endif const char* const supportedFileTypes[] = { "*.wav", "*.WAV", "*.aiff", "*.AIFF", "*.aifc", "*.AIFC", "*.snd", "*.SND", "*.au", "*.AU", "*.paf", "*.PAF", "*.iff", "*.IFF", "*.svx", "*.SVX", "*.sf", "*.SF", "*.voc", "*.VOC", "*.w64", "*.W64", "*.pvf", "*.PVF", "*.xi", "*.XI", "*.htk", "*.HTK", "*.caf", "*.CAF", NULL }; const char* soundfiles = _("Sound Files"); const char* allfiles = _("All Files"); #if (GTKMM_MAJOR_VERSION == 2 && GTKMM_MINOR_VERSION < 90) || GTKMM_MAJOR_VERSION < 2 for (int i = 0; supportedFileTypes[i]; i++) soundfilter.add_pattern(supportedFileTypes[i]); soundfilter.set_name(soundfiles); // matches every file Gtk::FileFilter allpassfilter; allpassfilter.add_pattern("*.*"); allpassfilter.set_name(allfiles); #else for (int i = 0; supportedFileTypes[i]; i++) soundfilter->add_pattern(supportedFileTypes[i]); soundfilter->set_name(soundfiles); // matches every file Glib::RefPtr allpassfilter = Gtk::FileFilter::create(); allpassfilter->add_pattern("*.*"); allpassfilter->set_name(allfiles); #endif dialog.add_filter(soundfilter); dialog.add_filter(allpassfilter); if (current_sample_dir != "") { dialog.set_current_folder(current_sample_dir); } if (dialog.run() == Gtk::RESPONSE_OK) { current_sample_dir = dialog.get_current_folder(); Glib::ustring error_files; std::vector filenames = dialog.get_filenames(); for (std::vector::iterator iter = filenames.begin(); iter != filenames.end(); ++iter) { printf("Adding sample %s\n",(*iter).c_str()); // use libsndfile to retrieve file informations SF_INFO info; info.format = 0; SNDFILE* hFile = sf_open((*iter).c_str(), SFM_READ, &info); try { if (!hFile) throw std::string(_("could not open file")); int bitdepth; switch (info.format & 0xff) { case SF_FORMAT_PCM_S8: case SF_FORMAT_PCM_16: case SF_FORMAT_PCM_U8: bitdepth = 16; break; case SF_FORMAT_PCM_24: case SF_FORMAT_PCM_32: case SF_FORMAT_FLOAT: case SF_FORMAT_DOUBLE: bitdepth = 24; break; default: sf_close(hFile); // close sound file throw std::string(_("format not supported")); // unsupported subformat (yet?) } // add a new sample to the .gig file (if adding is requested actually) if (!replace) sample = file->AddSample(); // file name without path Glib::ustring filename = Glib::filename_display_basename(*iter); // remove file extension if there is one for (int i = 0; supportedFileTypes[i]; i++) { if (Glib::str_has_suffix(filename, supportedFileTypes[i] + 1)) { filename.erase(filename.length() - strlen(supportedFileTypes[i] + 1)); break; } } sample->pInfo->Name = gig_from_utf8(filename); sample->Channels = info.channels; sample->BitDepth = bitdepth; sample->FrameSize = bitdepth / 8/*1 byte are 8 bits*/ * info.channels; sample->SamplesPerSecond = info.samplerate; sample->AverageBytesPerSecond = sample->FrameSize * sample->SamplesPerSecond; sample->BlockAlign = sample->FrameSize; sample->SamplesTotal = info.frames; SF_INSTRUMENT instrument; if (sf_command(hFile, SFC_GET_INSTRUMENT, &instrument, sizeof(instrument)) != SF_FALSE) { sample->MIDIUnityNote = instrument.basenote; sample->FineTune = instrument.detune; if (instrument.loop_count && instrument.loops[0].mode != SF_LOOP_NONE) { sample->Loops = 1; switch (instrument.loops[0].mode) { case SF_LOOP_FORWARD: sample->LoopType = gig::loop_type_normal; break; case SF_LOOP_BACKWARD: sample->LoopType = gig::loop_type_backward; break; case SF_LOOP_ALTERNATING: sample->LoopType = gig::loop_type_bidirectional; break; } sample->LoopStart = instrument.loops[0].start; sample->LoopEnd = instrument.loops[0].end; sample->LoopPlayCount = instrument.loops[0].count; sample->LoopSize = sample->LoopEnd - sample->LoopStart + 1; } } // schedule resizing the sample (which will be done // physically when File::Save() is called) sample->Resize(info.frames); // make sure sample is part of the selected group if (!replace) group->AddSample(sample); // schedule that physical resize and sample import // (data copying), performed when "Save" is requested SampleImportItem sched_item; sched_item.gig_sample = sample; sched_item.sample_path = *iter; m_SampleImportQueue.push_back(sched_item); // add sample to the tree view if (replace) { row[m_SamplesModel.m_col_name] = gig_to_utf8(sample->pInfo->Name); } else { Gtk::TreeModel::iterator iterSample = m_refSamplesTreeModel->append(row.children()); Gtk::TreeModel::Row rowSample = *iterSample; rowSample[m_SamplesModel.m_col_name] = gig_to_utf8(sample->pInfo->Name); rowSample[m_SamplesModel.m_col_sample] = sample; rowSample[m_SamplesModel.m_col_group] = NULL; } // close sound file sf_close(hFile); file_changed(); } catch (std::string what) { // remember the files that made trouble (and their cause) if (!error_files.empty()) error_files += "\n"; error_files += *iter += " (" + what + ")"; } } // show error message box when some file(s) could not be opened / added if (!error_files.empty()) { Glib::ustring txt = (replace ? _("Failed to replace sample with:\n") : _("Could not add the following sample(s):\n")) + error_files; Gtk::MessageDialog msg(*this, txt, false, Gtk::MESSAGE_ERROR); msg.run(); } } } void MainWindow::on_action_replace_all_samples_in_all_groups() { if (!file) return; Gtk::FileChooserDialog dialog(*this, _("Select Folder"), Gtk::FILE_CHOOSER_ACTION_SELECT_FOLDER); const char* str = _("This is a very specific function. It tries to replace all samples " "in the current gig file by samples located in the chosen " "directory.\n\n" "It works like this: For each sample in the gig file, it tries to " "find a sample file in the selected directory with the same name as " "the sample in the gig file. Optionally, you can add a filename " "extension below, which will be added to the filename expected to be " "found. That is, assume you have a gig file with a sample called " "'Snare', if you enter '.wav' below (like it's done by default), it " "expects to find a sample file called 'Snare.wav' and will replace " "the sample in the gig file accordingly. If you don't need an " "extension, blank the field below. Any gig sample where no " "appropriate sample file could be found will be reported and left " "untouched.\n"); #if GTKMM_MAJOR_VERSION < 3 view::WrapLabel description(str); #else Gtk::Label description(str); description.set_line_wrap(); #endif Gtk::HBox entryArea; Gtk::Label entryLabel( _("Add filename extension: "), Gtk::ALIGN_START); Gtk::Entry postfixEntryBox; postfixEntryBox.set_text(".wav"); entryArea.pack_start(entryLabel); entryArea.pack_start(postfixEntryBox); dialog.get_vbox()->pack_start(description, Gtk::PACK_SHRINK); dialog.get_vbox()->pack_start(entryArea, Gtk::PACK_SHRINK); description.show(); entryArea.show_all(); dialog.add_button(_("_Cancel"), Gtk::RESPONSE_CANCEL); dialog.add_button(_("Select"), Gtk::RESPONSE_OK); dialog.set_select_multiple(false); if (current_sample_dir != "") { dialog.set_current_folder(current_sample_dir); } if (dialog.run() == Gtk::RESPONSE_OK) { current_sample_dir = dialog.get_current_folder(); Glib::ustring error_files; std::string folder = dialog.get_filename(); for (gig::Sample* sample = file->GetFirstSample(); sample; sample = file->GetNextSample()) { std::string filename = folder + G_DIR_SEPARATOR_S + Glib::filename_from_utf8(gig_to_utf8(sample->pInfo->Name) + postfixEntryBox.get_text()); SF_INFO info; info.format = 0; SNDFILE* hFile = sf_open(filename.c_str(), SFM_READ, &info); try { if (!hFile) throw std::string(_("could not open file")); switch (info.format & 0xff) { case SF_FORMAT_PCM_S8: case SF_FORMAT_PCM_16: case SF_FORMAT_PCM_U8: case SF_FORMAT_PCM_24: case SF_FORMAT_PCM_32: case SF_FORMAT_FLOAT: case SF_FORMAT_DOUBLE: break; default: sf_close(hFile); throw std::string(_("format not supported")); } SampleImportItem sched_item; sched_item.gig_sample = sample; sched_item.sample_path = filename; m_SampleImportQueue.push_back(sched_item); sf_close(hFile); file_changed(); } catch (std::string what) { if (!error_files.empty()) error_files += "\n"; error_files += Glib::filename_to_utf8(filename) + " (" + what + ")"; } } // show error message box when some file(s) could not be opened / added if (!error_files.empty()) { Glib::ustring txt = _("Could not replace the following sample(s):\n") + error_files; Gtk::MessageDialog msg(*this, txt, false, Gtk::MESSAGE_ERROR); msg.run(); } } } void MainWindow::on_action_remove_sample() { if (!file) return; Glib::RefPtr sel = m_TreeViewSamples.get_selection(); Gtk::TreeModel::iterator it = sel->get_selected(); if (it) { Gtk::TreeModel::Row row = *it; gig::Group* group = row[m_SamplesModel.m_col_group]; gig::Sample* sample = row[m_SamplesModel.m_col_sample]; Glib::ustring name = row[m_SamplesModel.m_col_name]; try { // remove group or sample from the gig file if (group) { // temporarily remember the samples that belong to // that group (we need that to clean the queue) std::list members; for (gig::Sample* pSample = group->GetFirstSample(); pSample; pSample = group->GetNextSample()) { members.push_back(pSample); } // notify everybody that we're going to remove these samples samples_to_be_removed_signal.emit(members); // delete the group in the .gig file including the // samples that belong to the group file->DeleteGroup(group); // notify that we're done with removal samples_removed_signal.emit(); // if sample(s) were just previously added, remove // them from the import queue for (std::list::iterator member = members.begin(); member != members.end(); ++member) { for (std::list::iterator iter = m_SampleImportQueue.begin(); iter != m_SampleImportQueue.end(); ++iter) { if ((*iter).gig_sample == *member) { printf("Removing previously added sample '%s' from group '%s'\n", (*iter).sample_path.c_str(), name.c_str()); m_SampleImportQueue.erase(iter); break; } } } file_changed(); } else if (sample) { // notify everybody that we're going to remove this sample std::list lsamples; lsamples.push_back(sample); samples_to_be_removed_signal.emit(lsamples); // remove sample from the .gig file file->DeleteSample(sample); // notify that we're done with removal samples_removed_signal.emit(); // if sample was just previously added, remove it from // the import queue for (std::list::iterator iter = m_SampleImportQueue.begin(); iter != m_SampleImportQueue.end(); ++iter) { if ((*iter).gig_sample == sample) { printf("Removing previously added sample '%s'\n", (*iter).sample_path.c_str()); m_SampleImportQueue.erase(iter); break; } } dimreg_changed(); file_changed(); } // remove respective row(s) from samples tree view m_refSamplesTreeModel->erase(it); } catch (RIFF::Exception e) { // pretend we're done with removal (i.e. to avoid dead locks) samples_removed_signal.emit(); // show error message Gtk::MessageDialog msg(*this, e.Message.c_str(), false, Gtk::MESSAGE_ERROR); msg.run(); } } } void MainWindow::on_action_remove_unused_samples() { if (!file) return; // collect all samples that are not referenced by any instrument std::list lsamples; for (int iSample = 0; file->GetSample(iSample); ++iSample) { gig::Sample* sample = file->GetSample(iSample); bool isUsed = false; for (gig::Instrument* instrument = file->GetFirstInstrument(); instrument; instrument = file->GetNextInstrument()) { for (gig::Region* rgn = instrument->GetFirstRegion(); rgn; rgn = instrument->GetNextRegion()) { for (int i = 0; i < 256; ++i) { if (!rgn->pDimensionRegions[i]) continue; if (rgn->pDimensionRegions[i]->pSample != sample) continue; isUsed = true; goto endOfRefSearch; } } } endOfRefSearch: if (!isUsed) lsamples.push_back(sample); } if (lsamples.empty()) return; // notify everybody that we're going to remove these samples samples_to_be_removed_signal.emit(lsamples); // remove collected samples try { for (std::list::iterator itSample = lsamples.begin(); itSample != lsamples.end(); ++itSample) { gig::Sample* sample = *itSample; // remove sample from the .gig file file->DeleteSample(sample); // if sample was just previously added, remove it fro the import queue for (std::list::iterator iter = m_SampleImportQueue.begin(); iter != m_SampleImportQueue.end(); ++iter) { if ((*iter).gig_sample == sample) { printf("Removing previously added sample '%s'\n", (*iter).sample_path.c_str()); m_SampleImportQueue.erase(iter); break; } } } } catch (RIFF::Exception e) { // show error message Gtk::MessageDialog msg(*this, e.Message.c_str(), false, Gtk::MESSAGE_ERROR); msg.run(); } // notify everybody that we're done with removal samples_removed_signal.emit(); dimreg_changed(); file_changed(); __refreshEntireGUI(); } // see comment on on_sample_treeview_drag_begin() void MainWindow::on_scripts_treeview_drag_begin(const Glib::RefPtr& context) { first_call_to_drag_data_get = true; } void MainWindow::on_scripts_treeview_drag_data_get(const Glib::RefPtr&, Gtk::SelectionData& selection_data, guint, guint) { if (!first_call_to_drag_data_get) return; first_call_to_drag_data_get = false; // get selected script gig::Script* script = NULL; Glib::RefPtr sel = m_TreeViewScripts.get_selection(); Gtk::TreeModel::iterator it = sel->get_selected(); if (it) { Gtk::TreeModel::Row row = *it; script = row[m_ScriptsModel.m_col_script]; } // pass the gig::Script as pointer selection_data.set(selection_data.get_target(), 0/*unused*/, (const guchar*)&script, sizeof(script)/*length of data in bytes*/); } // see comment on on_sample_treeview_drag_begin() void MainWindow::on_instruments_treeview_drag_begin(const Glib::RefPtr& context) { first_call_to_drag_data_get = true; } void MainWindow::on_instruments_treeview_drag_data_get(const Glib::RefPtr&, Gtk::SelectionData& selection_data, guint, guint) { if (!first_call_to_drag_data_get) return; first_call_to_drag_data_get = false; // get selected source instrument gig::Instrument* src = NULL; { Glib::RefPtr sel = m_TreeView.get_selection(); Gtk::TreeModel::iterator it = sel->get_selected(); if (it) { Gtk::TreeModel::Row row = *it; src = row[m_Columns.m_col_instr]; } } if (!src) return; // pass the source gig::Instrument as pointer selection_data.set(selection_data.get_target(), 0/*unused*/, (const guchar*)&src, sizeof(src)/*length of data in bytes*/); } void MainWindow::on_instruments_treeview_drop_drag_data_received( const Glib::RefPtr& context, int x, int y, const Gtk::SelectionData& selection_data, guint, guint time) { gig::Instrument* src = *((gig::Instrument**) selection_data.get_data()); if (!src || selection_data.get_length() != sizeof(gig::Instrument*)) return; gig::Instrument* dst = NULL; { Gtk::TreeModel::Path path; const bool found = m_TreeView.get_path_at_pos(x, y, path); if (!found) return; Gtk::TreeModel::iterator iter = m_refTreeModel->get_iter(path); if (!iter) return; Gtk::TreeModel::Row row = *iter; dst = row[m_Columns.m_col_instr]; } if (!dst) return; //printf("dragdrop received src=%s dst=%s\n", src->pInfo->Name.c_str(), dst->pInfo->Name.c_str()); src->MoveTo(dst); __refreshEntireGUI(); select_instrument(src); } // For some reason drag_data_get gets called two times for each // drag'n'drop (at least when target is an Entry). This work-around // makes sure the code in drag_data_get and drop_drag_data_received is // only executed once, as drag_begin only gets called once. void MainWindow::on_sample_treeview_drag_begin(const Glib::RefPtr& context) { first_call_to_drag_data_get = true; } void MainWindow::on_sample_treeview_drag_data_get(const Glib::RefPtr&, Gtk::SelectionData& selection_data, guint, guint) { if (!first_call_to_drag_data_get) return; first_call_to_drag_data_get = false; // get selected sample gig::Sample* sample = NULL; Glib::RefPtr sel = m_TreeViewSamples.get_selection(); Gtk::TreeModel::iterator it = sel->get_selected(); if (it) { Gtk::TreeModel::Row row = *it; sample = row[m_SamplesModel.m_col_sample]; } // pass the gig::Sample as pointer selection_data.set(selection_data.get_target(), 0/*unused*/, (const guchar*)&sample, sizeof(sample)/*length of data in bytes*/); } void MainWindow::on_sample_label_drop_drag_data_received( const Glib::RefPtr& context, int, int, const Gtk::SelectionData& selection_data, guint, guint time) { gig::Sample* sample = *((gig::Sample**) selection_data.get_data()); if (sample && selection_data.get_length() == sizeof(gig::Sample*)) { std::cout << "Drop received sample \"" << sample->pInfo->Name << "\"" << std::endl; // drop success context->drop_reply(true, time); //TODO: we should better move most of the following code to DimRegionEdit::set_sample() // notify everybody that we're going to alter the region gig::Region* region = m_RegionChooser.get_region(); region_to_be_changed_signal.emit(region); // find the samplechannel dimension gig::dimension_def_t* stereo_dimension = 0; for (int i = 0 ; i < region->Dimensions ; i++) { if (region->pDimensionDefinitions[i].dimension == gig::dimension_samplechannel) { stereo_dimension = ®ion->pDimensionDefinitions[i]; break; } } bool channels_changed = false; if (sample->Channels == 1 && stereo_dimension) { // remove the samplechannel dimension /* commented out, because it makes it impossible building up an instrument from scratch using two separate L/R samples region->DeleteDimension(stereo_dimension); channels_changed = true; region_changed(); */ } dimreg_edit.set_sample( sample, is_copy_samples_unity_note_enabled(), is_copy_samples_fine_tune_enabled(), is_copy_samples_loop_enabled() ); if (sample->Channels == 2 && !stereo_dimension) { // add samplechannel dimension gig::dimension_def_t dim; dim.dimension = gig::dimension_samplechannel; dim.bits = 1; dim.zones = 2; region->AddDimension(&dim); channels_changed = true; region_changed(); } if (channels_changed) { // unmap all samples with wrong number of channels // TODO: maybe there should be a warning dialog for this for (int i = 0 ; i < region->DimensionRegions ; i++) { gig::DimensionRegion* d = region->pDimensionRegions[i]; if (d->pSample && d->pSample->Channels != sample->Channels) { gig::Sample* oldref = d->pSample; d->pSample = NULL; sample_ref_changed_signal.emit(oldref, NULL); } } } // notify we're done with altering region_changed_signal.emit(region); file_changed(); return; } // drop failed context->drop_reply(false, time); } void MainWindow::sample_name_changed(const Gtk::TreeModel::Path& path, const Gtk::TreeModel::iterator& iter) { if (!iter) return; Gtk::TreeModel::Row row = *iter; Glib::ustring name = row[m_SamplesModel.m_col_name]; gig::Group* group = row[m_SamplesModel.m_col_group]; gig::Sample* sample = row[m_SamplesModel.m_col_sample]; gig::String gigname(gig_from_utf8(name)); if (group) { if (group->Name != gigname) { group->Name = gigname; printf("group name changed\n"); file_changed(); } } else if (sample) { if (sample->pInfo->Name != gigname) { sample->pInfo->Name = gigname; printf("sample name changed\n"); file_changed(); } } } void MainWindow::script_name_changed(const Gtk::TreeModel::Path& path, const Gtk::TreeModel::iterator& iter) { if (!iter) return; Gtk::TreeModel::Row row = *iter; Glib::ustring name = row[m_ScriptsModel.m_col_name]; gig::ScriptGroup* group = row[m_ScriptsModel.m_col_group]; gig::Script* script = row[m_ScriptsModel.m_col_script]; gig::String gigname(gig_from_utf8(name)); if (group) { if (group->Name != gigname) { group->Name = gigname; printf("script group name changed\n"); file_changed(); } } else if (script) { if (script->Name != gigname) { script->Name = gigname; printf("script name changed\n"); file_changed(); } } } void MainWindow::script_double_clicked(const Gtk::TreeModel::Path& path, Gtk::TreeViewColumn* column) { Gtk::TreeModel::iterator iter = m_refScriptsTreeModel->get_iter(path); if (!iter) return; Gtk::TreeModel::Row row = *iter; gig::Script* script = row[m_ScriptsModel.m_col_script]; if (!script) return; ScriptEditor* editor = new ScriptEditor; editor->setScript(script); //editor->reparent(*this); editor->show(); } void MainWindow::instrument_name_changed(const Gtk::TreeModel::Path& path, const Gtk::TreeModel::iterator& iter) { if (!iter) return; Gtk::TreeModel::Row row = *iter; Glib::ustring name = row[m_Columns.m_col_name]; // change name in instrument menu int index = path[0]; const std::vector children = instrument_menu->get_children(); if (index < children.size()) { #if (GTKMM_MAJOR_VERSION == 2 && GTKMM_MINOR_VERSION >= 16) || GTKMM_MAJOR_VERSION > 2 static_cast(children[index])->set_label(name); #else remove_instrument_from_menu(index); Gtk::RadioMenuItem* item = add_instrument_to_menu(name, index); item->set_active(); #endif } // change name in gig gig::Instrument* instrument = row[m_Columns.m_col_instr]; gig::String gigname(gig_from_utf8(name)); if (instrument && instrument->pInfo->Name != gigname) { instrument->pInfo->Name = gigname; // change name in the instrument properties window if (instrumentProps.get_instrument() == instrument) { instrumentProps.update_name(); } file_changed(); } } void MainWindow::on_action_combine_instruments() { CombineInstrumentsDialog* d = new CombineInstrumentsDialog(*this, file); d->show_all(); d->resize(500, 400); d->run(); if (d->fileWasChanged()) { // update GUI with new instrument just created add_instrument(d->newCombinedInstrument()); } delete d; } void MainWindow::on_action_view_references() { Glib::RefPtr sel = m_TreeViewSamples.get_selection(); Gtk::TreeModel::iterator it = sel->get_selected(); if (!it) return; Gtk::TreeModel::Row row = *it; gig::Sample* sample = row[m_SamplesModel.m_col_sample]; if (!sample) return; ReferencesView* d = new ReferencesView(*this); d->setSample(sample); d->dimension_region_selected.connect( sigc::mem_fun(*this, &MainWindow::select_dimension_region) ); d->show_all(); d->resize(500, 400); d->run(); delete d; } void MainWindow::mergeFiles(const std::vector& filenames) { struct _Source { std::vector riffs; std::vector gigs; ~_Source() { for (int k = 0; k < gigs.size(); ++k) delete gigs[k]; for (int k = 0; k < riffs.size(); ++k) delete riffs[k]; riffs.clear(); gigs.clear(); } } sources; if (filenames.empty()) throw RIFF::Exception(_("No files selected, so nothing done.")); // first open all input files (to avoid output file corruption) int i; try { for (i = 0; i < filenames.size(); ++i) { const std::string& filename = filenames[i]; printf("opening file=%s\n", filename.c_str()); RIFF::File* riff = new RIFF::File(filename); sources.riffs.push_back(riff); gig::File* gig = new gig::File(riff); sources.gigs.push_back(gig); } } catch (RIFF::Exception e) { throw RIFF::Exception( _("Error occurred while opening '") + filenames[i] + "': " + e.Message ); } catch (...) { throw RIFF::Exception( _("Unknown exception occurred while opening '") + filenames[i] + "'" ); } // now merge the opened .gig files to the main .gig file currently being // open in gigedit try { for (i = 0; i < filenames.size(); ++i) { const std::string& filename = filenames[i]; printf("merging file=%s\n", filename.c_str()); assert(i < sources.gigs.size()); this->file->AddContentOf(sources.gigs[i]); } } catch (RIFF::Exception e) { throw RIFF::Exception( _("Error occurred while merging '") + filenames[i] + "': " + e.Message ); } catch (...) { throw RIFF::Exception( _("Unknown exception occurred while merging '") + filenames[i] + "'" ); } // Finally save gig file persistently to disk ... //NOTE: requires that this gig file already has a filename ! { std::cout << "Saving file\n" << std::flush; file_structure_to_be_changed_signal.emit(this->file); progress_dialog = new ProgressDialog( //FIXME: memory leak! _("Saving") + Glib::ustring(" '") + Glib::filename_display_basename(this->filename) + "' ...", *this ); progress_dialog->show_all(); saver = new Saver(this->file); //FIXME: memory leak! saver->signal_progress().connect( sigc::mem_fun(*this, &MainWindow::on_saver_progress)); saver->signal_finished().connect( sigc::mem_fun(*this, &MainWindow::on_saver_finished)); saver->signal_error().connect( sigc::mem_fun(*this, &MainWindow::on_saver_error)); saver->launch(); } } void MainWindow::on_action_merge_files() { if (this->file->GetFileName().empty()) { Glib::ustring txt = _( "You seem to have a new .gig file open that has not been saved " "yet. You must save it somewhere before starting to merge it with " "other .gig files though, because during the merge operation the " "other files' sample data must be written on file level to the " "target .gig file." ); Gtk::MessageDialog msg(*this, txt, false, Gtk::MESSAGE_ERROR); msg.run(); return; } Gtk::FileChooserDialog dialog(*this, _("Merge .gig files")); dialog.add_button(_("_Cancel"), Gtk::RESPONSE_CANCEL); dialog.add_button(_("Merge"), Gtk::RESPONSE_OK); dialog.set_default_response(Gtk::RESPONSE_CANCEL); #if (GTKMM_MAJOR_VERSION == 2 && GTKMM_MINOR_VERSION < 90) || GTKMM_MAJOR_VERSION < 2 Gtk::FileFilter filter; filter.add_pattern("*.gig"); #else Glib::RefPtr filter = Gtk::FileFilter::create(); filter->add_pattern("*.gig"); #endif dialog.set_filter(filter); if (current_gig_dir != "") { dialog.set_current_folder(current_gig_dir); } dialog.set_select_multiple(true); // show warning in the file picker dialog Gtk::HBox descriptionArea; descriptionArea.set_spacing(15); Gtk::Image warningIcon; warningIcon.set_from_icon_name("dialog-warning", Gtk::IconSize(Gtk::ICON_SIZE_DIALOG)); descriptionArea.pack_start(warningIcon, Gtk::PACK_SHRINK); #if GTKMM_MAJOR_VERSION < 3 view::WrapLabel description; #else Gtk::Label description; description.set_line_wrap(); #endif description.set_markup(_( "\nSelect at least one .gig file that shall be merged to the .gig file " "currently being open in gigedit.\n\n" "Please Note: Merging with other files will modify your " "currently open .gig file on file level! And be aware that the current " "merge algorithm does not detect duplicate samples yet. So if you are " "merging files which are using equivalent sample data, those " "equivalent samples will currently be treated as separate samples and " "will accordingly be stored separately in the target .gig file!" )); descriptionArea.pack_start(description); dialog.get_vbox()->pack_start(descriptionArea, Gtk::PACK_SHRINK); descriptionArea.show_all(); if (dialog.run() == Gtk::RESPONSE_OK) { printf("on_action_merge_files self=%p\n", static_cast(Glib::Threads::Thread::self())); std::vector filenames = dialog.get_filenames(); // merge the selected files to the currently open .gig file try { mergeFiles(filenames); } catch (RIFF::Exception e) { Gtk::MessageDialog msg(*this, e.Message, false, Gtk::MESSAGE_ERROR); msg.run(); } // update GUI __refreshEntireGUI(); } } void MainWindow::set_file_is_shared(bool b) { this->file_is_shared = b; if (file_is_shared) { m_AttachedStateLabel.set_label(_("live-mode")); m_AttachedStateImage.set( Gdk::Pixbuf::create_from_xpm_data(status_attached_xpm) ); } else { m_AttachedStateLabel.set_label(_("stand-alone")); m_AttachedStateImage.set( Gdk::Pixbuf::create_from_xpm_data(status_detached_xpm) ); } { Gtk::MenuItem* item = dynamic_cast( uiManager->get_widget("/MenuBar/MenuSettings/SyncSamplerInstrumentSelection")); if (item) item->set_sensitive(b); } } void MainWindow::on_sample_ref_count_incremented(gig::Sample* sample, int offset) { if (!sample) return; sample_ref_count[sample] += offset; const int refcount = sample_ref_count[sample]; Glib::RefPtr model = m_TreeViewSamples.get_model(); for (int g = 0; g < model->children().size(); ++g) { Gtk::TreeModel::Row rowGroup = model->children()[g]; for (int s = 0; s < rowGroup.children().size(); ++s) { Gtk::TreeModel::Row rowSample = rowGroup.children()[s]; if (rowSample[m_SamplesModel.m_col_sample] != sample) continue; rowSample[m_SamplesModel.m_col_refcount] = ToString(refcount) + " " + _("Refs."); rowSample[m_SamplesModel.m_color] = refcount ? "black" : "red"; } } } void MainWindow::on_sample_ref_changed(gig::Sample* oldSample, gig::Sample* newSample) { on_sample_ref_count_incremented(oldSample, -1); on_sample_ref_count_incremented(newSample, +1); } void MainWindow::on_samples_to_be_removed(std::list samples) { // just in case a new sample is added later with exactly the same memory // address, which would lead to incorrect refcount if not deleted here for (std::list::const_iterator it = samples.begin(); it != samples.end(); ++it) { sample_ref_count.erase(*it); } } void MainWindow::show_samples_tab() { m_TreeViewNotebook.set_current_page(0); } void MainWindow::show_intruments_tab() { m_TreeViewNotebook.set_current_page(1); } void MainWindow::show_scripts_tab() { m_TreeViewNotebook.set_current_page(2); } sigc::signal& MainWindow::signal_file_structure_to_be_changed() { return file_structure_to_be_changed_signal; } sigc::signal& MainWindow::signal_file_structure_changed() { return file_structure_changed_signal; } sigc::signal >& MainWindow::signal_samples_to_be_removed() { return samples_to_be_removed_signal; } sigc::signal& MainWindow::signal_samples_removed() { return samples_removed_signal; } sigc::signal& MainWindow::signal_region_to_be_changed() { return region_to_be_changed_signal; } sigc::signal& MainWindow::signal_region_changed() { return region_changed_signal; } sigc::signal& MainWindow::signal_sample_changed() { return sample_changed_signal; } sigc::signal& MainWindow::signal_sample_ref_changed() { return sample_ref_changed_signal; } sigc::signal& MainWindow::signal_dimreg_to_be_changed() { return dimreg_to_be_changed_signal; } sigc::signal& MainWindow::signal_dimreg_changed() { return dimreg_changed_signal; } sigc::signal& MainWindow::signal_note_on() { return note_on_signal; } sigc::signal& MainWindow::signal_note_off() { return note_off_signal; } sigc::signal& MainWindow::signal_keyboard_key_hit() { return m_RegionChooser.signal_keyboard_key_hit(); } sigc::signal& MainWindow::signal_keyboard_key_released() { return m_RegionChooser.signal_keyboard_key_released(); } sigc::signal& MainWindow::signal_switch_sampler_instrument() { return switch_sampler_instrument_signal; }