/* * Carla Bridge UI * Copyright (C) 2011-2017 Filipe Coelho * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License as * published by the Free Software Foundation; either version 2 of * the License, or 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. * * For a full copy of the GNU General Public License see the doc/GPL.txt file. */ #include "CarlaBridgeFormat.hpp" #include "CarlaBridgeToolkit.hpp" #include "CarlaLibUtils.hpp" #include "CarlaLv2Utils.hpp" #include "CarlaMIDI.h" #include "LinkedList.hpp" #include "water/files/File.h" #include #include #define URI_CARLA_ATOM_WORKER "http://kxstudio.sf.net/ns/carla/atomWorker" using water::File; CARLA_BRIDGE_UI_START_NAMESPACE // -------------------------------------------------------------------------------------------------------------------- static double gInitialSampleRate = 44100.0; // LV2 URI Map Ids enum CarlaLv2URIDs { kUridNull = 0, kUridAtomBlank, kUridAtomBool, kUridAtomChunk, kUridAtomDouble, kUridAtomEvent, kUridAtomFloat, kUridAtomInt, kUridAtomLiteral, kUridAtomLong, kUridAtomNumber, kUridAtomObject, kUridAtomPath, kUridAtomProperty, kUridAtomResource, kUridAtomSequence, kUridAtomSound, kUridAtomString, kUridAtomTuple, kUridAtomURI, kUridAtomURID, kUridAtomVector, kUridAtomTransferAtom, kUridAtomTransferEvent, kUridBufMaxLength, kUridBufMinLength, kUridBufNominalLength, kUridBufSequenceSize, kUridLogError, kUridLogNote, kUridLogTrace, kUridLogWarning, // time base type kUridTimePosition, // time values kUridTimeBar, kUridTimeBarBeat, kUridTimeBeat, kUridTimeBeatUnit, kUridTimeBeatsPerBar, kUridTimeBeatsPerMinute, kUridTimeFrame, kUridTimeFramesPerSecond, kUridTimeSpeed, kUridTimeTicksPerBeat, kUridMidiEvent, kUridParamSampleRate, kUridWindowTitle, kUridCarlaAtomWorker, kUridCarlaTransientWindowId, kUridCount }; // LV2 Feature Ids enum CarlaLv2Features { // DSP features kFeatureIdLogs = 0, kFeatureIdOptions, kFeatureIdPrograms, kFeatureIdStateMakePath, kFeatureIdStateMapPath, kFeatureIdUriMap, kFeatureIdUridMap, kFeatureIdUridUnmap, kFeatureIdUiIdleInterface, kFeatureIdUiFixedSize, kFeatureIdUiMakeResident, kFeatureIdUiMakeResident2, kFeatureIdUiNoUserResize, kFeatureIdUiParent, kFeatureIdUiPortMap, kFeatureIdUiPortSubscribe, kFeatureIdUiResize, kFeatureIdUiTouch, kFeatureCount }; // -------------------------------------------------------------------------------------------------------------------- struct Lv2PluginOptions { enum OptIndex { SampleRate, TransientWinId, WindowTitle, Null, Count }; float sampleRate; int64_t transientWinId; const char* windowTitle; LV2_Options_Option opts[Count]; Lv2PluginOptions() noexcept : sampleRate(gInitialSampleRate), transientWinId(0), windowTitle(nullptr) { LV2_Options_Option& optSampleRate(opts[SampleRate]); optSampleRate.context = LV2_OPTIONS_INSTANCE; optSampleRate.subject = 0; optSampleRate.key = kUridParamSampleRate; optSampleRate.size = sizeof(float); optSampleRate.type = kUridAtomFloat; optSampleRate.value = &sampleRate; LV2_Options_Option& optTransientWinId(opts[TransientWinId]); optTransientWinId.context = LV2_OPTIONS_INSTANCE; optTransientWinId.subject = 0; optTransientWinId.key = kUridCarlaTransientWindowId; optTransientWinId.size = sizeof(int64_t); optTransientWinId.type = kUridAtomLong; optTransientWinId.value = &transientWinId; LV2_Options_Option& optWindowTitle(opts[WindowTitle]); optWindowTitle.context = LV2_OPTIONS_INSTANCE; optWindowTitle.subject = 0; optWindowTitle.key = kUridWindowTitle; optWindowTitle.size = 0; optWindowTitle.type = kUridAtomString; optWindowTitle.value = nullptr; LV2_Options_Option& optNull(opts[Null]); optNull.context = LV2_OPTIONS_INSTANCE; optNull.subject = 0; optNull.key = kUridNull; optNull.size = 0; optNull.type = kUridNull; optNull.value = nullptr; } }; // -------------------------------------------------------------------------------------------------------------------- class CarlaLv2Client : public CarlaBridgeFormat { public: CarlaLv2Client() : CarlaBridgeFormat(), fHandle(nullptr), fWidget(nullptr), fDescriptor(nullptr), fRdfDescriptor(nullptr), fRdfUiDescriptor(nullptr), fControlDesignatedPort(0), fLv2Options(), fUiOptions(), fCustomURIDs(kUridCount, std::string("urn:null")), fExt() { CARLA_SAFE_ASSERT(fCustomURIDs.size() == kUridCount); carla_zeroPointers(fFeatures, kFeatureCount+1); // ------------------------------------------------------------------------------------------------------------ // initialize features (part 1) LV2_Log_Log* const logFt = new LV2_Log_Log; logFt->handle = this; logFt->printf = carla_lv2_log_printf; logFt->vprintf = carla_lv2_log_vprintf; LV2_State_Make_Path* const stateMakePathFt = new LV2_State_Make_Path; stateMakePathFt->handle = this; stateMakePathFt->path = carla_lv2_state_make_path; LV2_State_Map_Path* const stateMapPathFt = new LV2_State_Map_Path; stateMapPathFt->handle = this; stateMapPathFt->abstract_path = carla_lv2_state_map_abstract_path; stateMapPathFt->absolute_path = carla_lv2_state_map_absolute_path; LV2_Programs_Host* const programsFt = new LV2_Programs_Host; programsFt->handle = this; programsFt->program_changed = carla_lv2_program_changed; LV2_URI_Map_Feature* const uriMapFt = new LV2_URI_Map_Feature; uriMapFt->callback_data = this; uriMapFt->uri_to_id = carla_lv2_uri_to_id; LV2_URID_Map* const uridMapFt = new LV2_URID_Map; uridMapFt->handle = this; uridMapFt->map = carla_lv2_urid_map; LV2_URID_Unmap* const uridUnmapFt = new LV2_URID_Unmap; uridUnmapFt->handle = this; uridUnmapFt->unmap = carla_lv2_urid_unmap; LV2UI_Port_Map* const uiPortMapFt = new LV2UI_Port_Map; uiPortMapFt->handle = this; uiPortMapFt->port_index = carla_lv2_ui_port_map; LV2UI_Resize* const uiResizeFt = new LV2UI_Resize; uiResizeFt->handle = this; uiResizeFt->ui_resize = carla_lv2_ui_resize; // ------------------------------------------------------------------------------------------------------------ // initialize features (part 2) for (uint32_t i=0; i < kFeatureCount; ++i) fFeatures[i] = new LV2_Feature; fFeatures[kFeatureIdLogs]->URI = LV2_LOG__log; fFeatures[kFeatureIdLogs]->data = logFt; fFeatures[kFeatureIdOptions]->URI = LV2_OPTIONS__options; fFeatures[kFeatureIdOptions]->data = fLv2Options.opts; fFeatures[kFeatureIdPrograms]->URI = LV2_PROGRAMS__Host; fFeatures[kFeatureIdPrograms]->data = programsFt; fFeatures[kFeatureIdStateMakePath]->URI = LV2_STATE__makePath; fFeatures[kFeatureIdStateMakePath]->data = stateMakePathFt; fFeatures[kFeatureIdStateMapPath]->URI = LV2_STATE__mapPath; fFeatures[kFeatureIdStateMapPath]->data = stateMapPathFt; fFeatures[kFeatureIdUriMap]->URI = LV2_URI_MAP_URI; fFeatures[kFeatureIdUriMap]->data = uriMapFt; fFeatures[kFeatureIdUridMap]->URI = LV2_URID__map; fFeatures[kFeatureIdUridMap]->data = uridMapFt; fFeatures[kFeatureIdUridUnmap]->URI = LV2_URID__unmap; fFeatures[kFeatureIdUridUnmap]->data = uridUnmapFt; fFeatures[kFeatureIdUiIdleInterface]->URI = LV2_UI__idleInterface; fFeatures[kFeatureIdUiIdleInterface]->data = nullptr; fFeatures[kFeatureIdUiFixedSize]->URI = LV2_UI__fixedSize; fFeatures[kFeatureIdUiFixedSize]->data = nullptr; fFeatures[kFeatureIdUiMakeResident]->URI = LV2_UI__makeResident; fFeatures[kFeatureIdUiMakeResident]->data = nullptr; fFeatures[kFeatureIdUiMakeResident2]->URI = LV2_UI__makeSONameResident; fFeatures[kFeatureIdUiMakeResident2]->data = nullptr; fFeatures[kFeatureIdUiNoUserResize]->URI = LV2_UI__noUserResize; fFeatures[kFeatureIdUiNoUserResize]->data = nullptr; fFeatures[kFeatureIdUiParent]->URI = LV2_UI__parent; fFeatures[kFeatureIdUiParent]->data = nullptr; fFeatures[kFeatureIdUiPortMap]->URI = LV2_UI__portMap; fFeatures[kFeatureIdUiPortMap]->data = uiPortMapFt; fFeatures[kFeatureIdUiPortSubscribe]->URI = LV2_UI__portSubscribe; fFeatures[kFeatureIdUiPortSubscribe]->data = nullptr; fFeatures[kFeatureIdUiResize]->URI = LV2_UI__resize; fFeatures[kFeatureIdUiResize]->data = uiResizeFt; fFeatures[kFeatureIdUiTouch]->URI = LV2_UI__touch; fFeatures[kFeatureIdUiTouch]->data = nullptr; } ~CarlaLv2Client() override { if (fHandle != nullptr && fDescriptor != nullptr && fDescriptor->cleanup != nullptr) { fDescriptor->cleanup(fHandle); fHandle = nullptr; } if (fRdfDescriptor != nullptr) { delete fRdfDescriptor; fRdfDescriptor = nullptr; } fRdfUiDescriptor = nullptr; delete (LV2_Log_Log*)fFeatures[kFeatureIdLogs]->data; delete (LV2_State_Make_Path*)fFeatures[kFeatureIdStateMakePath]->data; delete (LV2_State_Map_Path*)fFeatures[kFeatureIdStateMapPath]->data; delete (LV2_Programs_Host*)fFeatures[kFeatureIdPrograms]->data; delete (LV2_URI_Map_Feature*)fFeatures[kFeatureIdUriMap]->data; delete (LV2_URID_Map*)fFeatures[kFeatureIdUridMap]->data; delete (LV2_URID_Unmap*)fFeatures[kFeatureIdUridUnmap]->data; delete (LV2UI_Port_Map*)fFeatures[kFeatureIdUiPortMap]->data; delete (LV2UI_Resize*)fFeatures[kFeatureIdUiResize]->data; for (uint32_t i=0; i < kFeatureCount; ++i) { if (fFeatures[i] != nullptr) { delete fFeatures[i]; fFeatures[i] = nullptr; } } } // ---------------------------------------------------------------------------------------------------------------- // UI initialization bool init(const int argc, const char* argv[]) override { const char* pluginURI = argv[1]; const char* uiURI = argv[2]; // ------------------------------------------------------------------------------------------------------------ // load plugin Lv2WorldClass& lv2World(Lv2WorldClass::getInstance()); lv2World.initIfNeeded(std::getenv("LV2_PATH")); #if 0 Lilv::Node bundleNode(lv2World.new_file_uri(nullptr, uiBundle)); CARLA_SAFE_ASSERT_RETURN(bundleNode.is_uri(), false); CarlaString sBundle(bundleNode.as_uri()); if (! sBundle.endsWith("/")) sBundle += "/"; lv2World.load_bundle(sBundle); #endif // ------------------------------------------------------------------------------------------------------------ // get plugin from lv2_rdf (lilv) fRdfDescriptor = lv2_rdf_new(pluginURI, false); CARLA_SAFE_ASSERT_RETURN(fRdfDescriptor != nullptr, false); // ------------------------------------------------------------------------------------------------------------ // find requested UI for (uint32_t i=0; i < fRdfDescriptor->UICount; ++i) { if (std::strcmp(fRdfDescriptor->UIs[i].URI, uiURI) == 0) { fRdfUiDescriptor = &fRdfDescriptor->UIs[i]; break; } } CARLA_SAFE_ASSERT_RETURN(fRdfUiDescriptor != nullptr, false); // ------------------------------------------------------------------------------------------------------------ // check if not resizable for (uint32_t i=0; i < fRdfUiDescriptor->FeatureCount; ++i) { if (std::strcmp(fRdfUiDescriptor->Features[i].URI, LV2_UI__fixedSize ) == 0 || std::strcmp(fRdfUiDescriptor->Features[i].URI, LV2_UI__noUserResize) == 0) { fUiOptions.isResizable = false; break; } } // ------------------------------------------------------------------------------------------------------------ // init UI if (! CarlaBridgeFormat::init(argc, argv)) return false; // ------------------------------------------------------------------------------------------------------------ // open DLL if (! libOpen(fRdfUiDescriptor->Binary)) { carla_stderr("Failed to load UI binary, error was:\n%s", libError()); return false; } // ------------------------------------------------------------------------------------------------------------ // get DLL main entry const LV2UI_DescriptorFunction ui_descFn = (LV2UI_DescriptorFunction)libSymbol("lv2ui_descriptor"); if (ui_descFn == nullptr) return false; // ------------------------------------------------------------------------------------------------------------ // get descriptor that matches URI for (uint32_t i=0; (fDescriptor = ui_descFn(i++)) != nullptr;) { if (std::strcmp(fDescriptor->URI, uiURI) == 0) break; } if (fDescriptor == nullptr) { carla_stderr("Failed to find UI descriptor"); return false; } // ------------------------------------------------------------------------------------------------------------ // initialize UI #if defined(BRIDGE_COCOA) || defined(BRIDGE_HWND) || defined(BRIDGE_X11) fFeatures[kFeatureIdUiParent]->data = fToolkit->getContainerId(); #endif fHandle = fDescriptor->instantiate(fDescriptor, fRdfDescriptor->URI, fRdfUiDescriptor->Bundle, carla_lv2_ui_write_function, this, &fWidget, fFeatures); CARLA_SAFE_ASSERT_RETURN(fHandle != nullptr, false); #if defined(BRIDGE_COCOA) || defined(BRIDGE_HWND) || defined(BRIDGE_X11) if (fWidget != nullptr) fToolkit->setChildWindow(fWidget); #endif // ------------------------------------------------------------------------------------------------------------ // check for known extensions if (fDescriptor->extension_data != nullptr) { fExt.options = (const LV2_Options_Interface*)fDescriptor->extension_data(LV2_OPTIONS__interface); fExt.programs = (const LV2_Programs_UI_Interface*)fDescriptor->extension_data(LV2_PROGRAMS__UIInterface); fExt.idle = (const LV2UI_Idle_Interface*)fDescriptor->extension_data(LV2_UI__idleInterface); fExt.resize = (const LV2UI_Resize*)fDescriptor->extension_data(LV2_UI__resize); // check if invalid if (fExt.programs != nullptr && fExt.programs->select_program == nullptr) fExt.programs = nullptr; if (fExt.idle != nullptr && fExt.idle->idle == nullptr) fExt.idle = nullptr; if (fExt.resize != nullptr && fExt.resize->ui_resize == nullptr) fExt.resize = nullptr; } for (uint32_t i=0; iPortCount; ++i) { if (LV2_IS_PORT_DESIGNATION_CONTROL(fRdfDescriptor->Ports[i].Designation)) { fControlDesignatedPort = i; break; } } return true; } void idleUI() override { #if defined(BRIDGE_COCOA) || defined(BRIDGE_HWND) || defined(BRIDGE_X11) if (fHandle != nullptr && fExt.idle != nullptr && fExt.idle->idle(fHandle) != 0) { if (isPipeRunning() && ! fQuitReceived) writeExitingMessageAndWait(); } #endif } // ---------------------------------------------------------------------------------------------------------------- // UI management void* getWidget() const noexcept override { return fWidget; } const Options& getOptions() const noexcept override { return fUiOptions; } // ---------------------------------------------------------------------------------------------------------------- // DSP Callbacks void dspParameterChanged(const uint32_t index, const float value) override { CARLA_SAFE_ASSERT_RETURN(fHandle != nullptr,) CARLA_SAFE_ASSERT_RETURN(fDescriptor != nullptr,); if (fDescriptor->port_event == nullptr) return; fDescriptor->port_event(fHandle, index, sizeof(float), kUridNull, &value); } void dspProgramChanged(const uint32_t index) override { carla_stderr2("dspProgramChanged(%i) - not handled", index); } void dspMidiProgramChanged(const uint32_t bank, const uint32_t program) override { CARLA_SAFE_ASSERT_RETURN(fHandle != nullptr,) if (fExt.programs == nullptr) return; fExt.programs->select_program(fHandle, bank, program); } void dspStateChanged(const char* const, const char* const) override { } void dspNoteReceived(const bool onOff, const uint8_t channel, const uint8_t note, const uint8_t velocity) override { CARLA_SAFE_ASSERT_RETURN(fHandle != nullptr,) CARLA_SAFE_ASSERT_RETURN(fDescriptor != nullptr,); if (fDescriptor->port_event == nullptr) return; LV2_Atom_MidiEvent midiEv; midiEv.atom.type = kUridMidiEvent; midiEv.atom.size = 3; midiEv.data[0] = uint8_t((onOff ? MIDI_STATUS_NOTE_ON : MIDI_STATUS_NOTE_OFF) | (channel & MIDI_CHANNEL_BIT)); midiEv.data[1] = note; midiEv.data[2] = velocity; fDescriptor->port_event(fHandle, fControlDesignatedPort, lv2_atom_total_size(midiEv), kUridAtomTransferEvent, &midiEv); } void dspAtomReceived(const uint32_t portIndex, const LV2_Atom* const atom) override { CARLA_SAFE_ASSERT_RETURN(fHandle != nullptr,); CARLA_SAFE_ASSERT_RETURN(fDescriptor != nullptr,); CARLA_SAFE_ASSERT_RETURN(atom != nullptr,); if (fDescriptor->port_event == nullptr) return; fDescriptor->port_event(fHandle, portIndex, lv2_atom_total_size(atom), kUridAtomTransferEvent, atom); } void dspURIDReceived(const LV2_URID urid, const char* const uri) override { CARLA_SAFE_ASSERT_RETURN(urid == fCustomURIDs.size(),); CARLA_SAFE_ASSERT_RETURN(uri != nullptr && uri[0] != '\0',); fCustomURIDs.push_back(uri); } void uiOptionsChanged(const double sampleRate, const bool useTheme, const bool useThemeColors, const char* const windowTitle, uintptr_t transientWindowId) override { carla_debug("CarlaLv2Client::uiOptionsChanged(%g, %s, %s, \"%s\", " P_UINTPTR ")", sampleRate, bool2str(useTheme), bool2str(useThemeColors), windowTitle, transientWindowId); const float sampleRatef = static_cast(sampleRate); if (carla_isNotEqual(fLv2Options.sampleRate, sampleRatef)) { fLv2Options.sampleRate = sampleRatef; if (fExt.options != nullptr && fExt.options->set != nullptr) { LV2_Options_Option options[2]; carla_zeroStructs(options, 2); LV2_Options_Option& optSampleRate(options[0]); optSampleRate.context = LV2_OPTIONS_INSTANCE; optSampleRate.subject = 0; optSampleRate.key = kUridParamSampleRate; optSampleRate.size = sizeof(float); optSampleRate.type = kUridAtomFloat; optSampleRate.value = &fLv2Options.sampleRate; fExt.options->set(fHandle, options); } } delete[] fLv2Options.windowTitle; fLv2Options.transientWinId = static_cast(transientWindowId); fLv2Options.windowTitle = carla_strdup_safe(windowTitle); fUiOptions.useTheme = useTheme; fUiOptions.useThemeColors = useThemeColors; fUiOptions.windowTitle = fLv2Options.windowTitle; fUiOptions.transientWindowId = transientWindowId; } void uiResized(const uint width, const uint height) override { if (fHandle != nullptr && fExt.resize != nullptr) fExt.resize->ui_resize(fHandle, static_cast(width), static_cast(height)); } // ---------------------------------------------------------------------------------------------------------------- LV2_URID getCustomURID(const char* const uri) { CARLA_SAFE_ASSERT_RETURN(uri != nullptr && uri[0] != '\0', kUridNull); carla_debug("CarlaLv2Client::getCustomURID(\"%s\")", uri); const std::string s_uri(uri); const std::ptrdiff_t s_pos(std::find(fCustomURIDs.begin(), fCustomURIDs.end(), s_uri) - fCustomURIDs.begin()); if (s_pos <= 0 || s_pos >= INT32_MAX) return kUridNull; const LV2_URID urid = static_cast(s_pos); const LV2_URID uriCount = static_cast(fCustomURIDs.size()); if (urid < uriCount) return urid; CARLA_SAFE_ASSERT(urid == uriCount); fCustomURIDs.push_back(uri); if (isPipeRunning()) writeLv2UridMessage(urid, uri); return urid; } const char* getCustomURIDString(const LV2_URID urid) const noexcept { static const char* const sFallback = "urn:null"; CARLA_SAFE_ASSERT_RETURN(urid != kUridNull, sFallback); CARLA_SAFE_ASSERT_RETURN(urid < fCustomURIDs.size(), sFallback); carla_debug("CarlaLv2Client::getCustomURIDString(%i)", urid); return fCustomURIDs[urid].c_str(); } // ---------------------------------------------------------------------------------------------------------------- void handleProgramChanged(const int32_t index) { if (isPipeRunning()) writeReloadProgramsMessage(index); } uint32_t handleUiPortMap(const char* const symbol) { CARLA_SAFE_ASSERT_RETURN(symbol != nullptr && symbol[0] != '\0', LV2UI_INVALID_PORT_INDEX); carla_debug("CarlaLv2Client::handleUiPortMap(\"%s\")", symbol); for (uint32_t i=0; i < fRdfDescriptor->PortCount; ++i) { if (std::strcmp(fRdfDescriptor->Ports[i].Symbol, symbol) == 0) return i; } return LV2UI_INVALID_PORT_INDEX; } int handleUiResize(const int width, const int height) { CARLA_SAFE_ASSERT_RETURN(fToolkit != nullptr, 1); CARLA_SAFE_ASSERT_RETURN(width > 0, 1); CARLA_SAFE_ASSERT_RETURN(height > 0, 1); carla_debug("CarlaLv2Client::handleUiResize(%i, %i)", width, height); fToolkit->setSize(static_cast(width), static_cast(height)); return 0; } void handleUiWrite(uint32_t rindex, uint32_t bufferSize, uint32_t format, const void* buffer) { CARLA_SAFE_ASSERT_RETURN(buffer != nullptr,); CARLA_SAFE_ASSERT_RETURN(bufferSize > 0,); carla_debug("CarlaLv2Client::handleUiWrite(%i, %i, %i, %p)", rindex, bufferSize, format, buffer); switch (format) { case kUridNull: CARLA_SAFE_ASSERT_RETURN(bufferSize == sizeof(float),); if (isPipeRunning()) { const float value(*(const float*)buffer); writeControlMessage(rindex, value); } break; case kUridAtomTransferAtom: case kUridAtomTransferEvent: CARLA_SAFE_ASSERT_RETURN(bufferSize >= sizeof(LV2_Atom),); if (isPipeRunning()) { const LV2_Atom* const atom((const LV2_Atom*)buffer); // plugins sometimes fail on this, not good... CARLA_SAFE_ASSERT_INT2(bufferSize == lv2_atom_total_size(atom), bufferSize, atom->size); writeLv2AtomMessage(rindex, atom); } break; default: carla_stderr("CarlaLv2Client::handleUiWrite(%i, %i, %i:\"%s\", %p) - unknown format", rindex, bufferSize, format, carla_lv2_urid_unmap(this, format), buffer); break; } } // ---------------------------------------------------------------------------------------------------------------- private: LV2UI_Handle fHandle; LV2UI_Widget fWidget; LV2_Feature* fFeatures[kFeatureCount+1]; const LV2UI_Descriptor* fDescriptor; const LV2_RDF_Descriptor* fRdfDescriptor; const LV2_RDF_UI* fRdfUiDescriptor; uint32_t fControlDesignatedPort; Lv2PluginOptions fLv2Options; Options fUiOptions; std::vector fCustomURIDs; struct Extensions { const LV2_Options_Interface* options; const LV2_Programs_UI_Interface* programs; const LV2UI_Idle_Interface* idle; const LV2UI_Resize* resize; Extensions() : options(nullptr), programs(nullptr), idle(nullptr), resize(nullptr) {} } fExt; // ---------------------------------------------------------------------------------------------------------------- // Logs Feature static int carla_lv2_log_printf(LV2_Log_Handle handle, LV2_URID type, const char* fmt, ...) { CARLA_SAFE_ASSERT_RETURN(handle != nullptr, 0); CARLA_SAFE_ASSERT_RETURN(type != kUridNull, 0); CARLA_SAFE_ASSERT_RETURN(fmt != nullptr, 0); #ifndef DEBUG if (type == kUridLogTrace) return 0; #endif va_list args; va_start(args, fmt); const int ret(carla_lv2_log_vprintf(handle, type, fmt, args)); va_end(args); return ret; } static int carla_lv2_log_vprintf(LV2_Log_Handle handle, LV2_URID type, const char* fmt, va_list ap) { CARLA_SAFE_ASSERT_RETURN(handle != nullptr, 0); CARLA_SAFE_ASSERT_RETURN(type != kUridNull, 0); CARLA_SAFE_ASSERT_RETURN(fmt != nullptr, 0); int ret = 0; switch (type) { case kUridLogError: std::fprintf(stderr, "\x1b[31m"); ret = std::vfprintf(stderr, fmt, ap); std::fprintf(stderr, "\x1b[0m"); break; case kUridLogNote: ret = std::vfprintf(stdout, fmt, ap); break; case kUridLogTrace: #ifdef DEBUG std::fprintf(stdout, "\x1b[30;1m"); ret = std::vfprintf(stdout, fmt, ap); std::fprintf(stdout, "\x1b[0m"); #endif break; case kUridLogWarning: ret = std::vfprintf(stderr, fmt, ap); break; default: break; } return ret; } // ---------------------------------------------------------------------------------------------------------------- // Programs Feature static void carla_lv2_program_changed(LV2_Programs_Handle handle, int32_t index) { CARLA_SAFE_ASSERT_RETURN(handle != nullptr,); carla_debug("carla_lv2_program_changed(%p, %i)", handle, index); ((CarlaLv2Client*)handle)->handleProgramChanged(index); } // ---------------------------------------------------------------------------------------------------------------- // State Feature static char* carla_lv2_state_make_path(LV2_State_Make_Path_Handle handle, const char* path) { CARLA_SAFE_ASSERT_RETURN(handle != nullptr, nullptr); CARLA_SAFE_ASSERT_RETURN(path != nullptr && path[0] != '\0', nullptr); carla_debug("carla_lv2_state_make_path(%p, \"%s\")", handle, path); File file; if (File::isAbsolutePath(path)) file = File(path); else file = File::getCurrentWorkingDirectory().getChildFile(path); file.getParentDirectory().createDirectory(); return strdup(file.getFullPathName().toRawUTF8()); } static char* carla_lv2_state_map_abstract_path(LV2_State_Map_Path_Handle handle, const char* absolute_path) { CARLA_SAFE_ASSERT_RETURN(handle != nullptr, strdup("")); CARLA_SAFE_ASSERT_RETURN(absolute_path != nullptr && absolute_path[0] != '\0', strdup("")); carla_debug("carla_lv2_state_map_abstract_path(%p, \"%s\")", handle, absolute_path); // may already be an abstract path if (! File::isAbsolutePath(absolute_path)) return strdup(absolute_path); return strdup(File(absolute_path).getRelativePathFrom(File::getCurrentWorkingDirectory()).toRawUTF8()); } static char* carla_lv2_state_map_absolute_path(LV2_State_Map_Path_Handle handle, const char* abstract_path) { const char* const cwd(File::getCurrentWorkingDirectory().getFullPathName().toRawUTF8()); CARLA_SAFE_ASSERT_RETURN(handle != nullptr, strdup(cwd)); CARLA_SAFE_ASSERT_RETURN(abstract_path != nullptr && abstract_path[0] != '\0', strdup(cwd)); carla_debug("carla_lv2_state_map_absolute_path(%p, \"%s\")", handle, abstract_path); // may already be an absolute path if (File::isAbsolutePath(abstract_path)) return strdup(abstract_path); return strdup(File::getCurrentWorkingDirectory().getChildFile(abstract_path).getFullPathName().toRawUTF8()); } // ---------------------------------------------------------------------------------------------------------------- // URI-Map Feature static uint32_t carla_lv2_uri_to_id(LV2_URI_Map_Callback_Data data, const char* map, const char* uri) { carla_debug("carla_lv2_uri_to_id(%p, \"%s\", \"%s\")", data, map, uri); return carla_lv2_urid_map((LV2_URID_Map_Handle*)data, uri); // unused (void)map; } // ---------------------------------------------------------------------------------------------------------------- // URID Feature static LV2_URID carla_lv2_urid_map(LV2_URID_Map_Handle handle, const char* uri) { CARLA_SAFE_ASSERT_RETURN(handle != nullptr, kUridNull); CARLA_SAFE_ASSERT_RETURN(uri != nullptr && uri[0] != '\0', kUridNull); carla_debug("carla_lv2_urid_map(%p, \"%s\")", handle, uri); // Atom types if (std::strcmp(uri, LV2_ATOM__Blank) == 0) return kUridAtomBlank; if (std::strcmp(uri, LV2_ATOM__Bool) == 0) return kUridAtomBool; if (std::strcmp(uri, LV2_ATOM__Chunk) == 0) return kUridAtomChunk; if (std::strcmp(uri, LV2_ATOM__Double) == 0) return kUridAtomDouble; if (std::strcmp(uri, LV2_ATOM__Event) == 0) return kUridAtomEvent; if (std::strcmp(uri, LV2_ATOM__Float) == 0) return kUridAtomFloat; if (std::strcmp(uri, LV2_ATOM__Int) == 0) return kUridAtomInt; if (std::strcmp(uri, LV2_ATOM__Literal) == 0) return kUridAtomLiteral; if (std::strcmp(uri, LV2_ATOM__Long) == 0) return kUridAtomLong; if (std::strcmp(uri, LV2_ATOM__Number) == 0) return kUridAtomNumber; if (std::strcmp(uri, LV2_ATOM__Object) == 0) return kUridAtomObject; if (std::strcmp(uri, LV2_ATOM__Path) == 0) return kUridAtomPath; if (std::strcmp(uri, LV2_ATOM__Property) == 0) return kUridAtomProperty; if (std::strcmp(uri, LV2_ATOM__Resource) == 0) return kUridAtomResource; if (std::strcmp(uri, LV2_ATOM__Sequence) == 0) return kUridAtomSequence; if (std::strcmp(uri, LV2_ATOM__Sound) == 0) return kUridAtomSound; if (std::strcmp(uri, LV2_ATOM__String) == 0) return kUridAtomString; if (std::strcmp(uri, LV2_ATOM__Tuple) == 0) return kUridAtomTuple; if (std::strcmp(uri, LV2_ATOM__URI) == 0) return kUridAtomURI; if (std::strcmp(uri, LV2_ATOM__URID) == 0) return kUridAtomURID; if (std::strcmp(uri, LV2_ATOM__Vector) == 0) return kUridAtomVector; if (std::strcmp(uri, LV2_ATOM__atomTransfer) == 0) return kUridAtomTransferAtom; if (std::strcmp(uri, LV2_ATOM__eventTransfer) == 0) return kUridAtomTransferEvent; // BufSize types if (std::strcmp(uri, LV2_BUF_SIZE__maxBlockLength) == 0) return kUridBufMaxLength; if (std::strcmp(uri, LV2_BUF_SIZE__minBlockLength) == 0) return kUridBufMinLength; if (std::strcmp(uri, LV2_BUF_SIZE__nominalBlockLength) == 0) return kUridBufNominalLength; if (std::strcmp(uri, LV2_BUF_SIZE__sequenceSize) == 0) return kUridBufSequenceSize; // Log types if (std::strcmp(uri, LV2_LOG__Error) == 0) return kUridLogError; if (std::strcmp(uri, LV2_LOG__Note) == 0) return kUridLogNote; if (std::strcmp(uri, LV2_LOG__Trace) == 0) return kUridLogTrace; if (std::strcmp(uri, LV2_LOG__Warning) == 0) return kUridLogWarning; // Time types if (std::strcmp(uri, LV2_TIME__Position) == 0) return kUridTimePosition; if (std::strcmp(uri, LV2_TIME__bar) == 0) return kUridTimeBar; if (std::strcmp(uri, LV2_TIME__barBeat) == 0) return kUridTimeBarBeat; if (std::strcmp(uri, LV2_TIME__beat) == 0) return kUridTimeBeat; if (std::strcmp(uri, LV2_TIME__beatUnit) == 0) return kUridTimeBeatUnit; if (std::strcmp(uri, LV2_TIME__beatsPerBar) == 0) return kUridTimeBeatsPerBar; if (std::strcmp(uri, LV2_TIME__beatsPerMinute) == 0) return kUridTimeBeatsPerMinute; if (std::strcmp(uri, LV2_TIME__frame) == 0) return kUridTimeFrame; if (std::strcmp(uri, LV2_TIME__framesPerSecond) == 0) return kUridTimeFramesPerSecond; if (std::strcmp(uri, LV2_TIME__speed) == 0) return kUridTimeSpeed; if (std::strcmp(uri, LV2_KXSTUDIO_PROPERTIES__TimePositionTicksPerBeat) == 0) return kUridTimeTicksPerBeat; // Others if (std::strcmp(uri, LV2_MIDI__MidiEvent) == 0) return kUridMidiEvent; if (std::strcmp(uri, LV2_PARAMETERS__sampleRate) == 0) return kUridParamSampleRate; if (std::strcmp(uri, LV2_UI__windowTitle) == 0) return kUridWindowTitle; // Custom Carla types if (std::strcmp(uri, URI_CARLA_ATOM_WORKER) == 0) return kUridCarlaAtomWorker; if (std::strcmp(uri, LV2_KXSTUDIO_PROPERTIES__TransientWindowId) == 0) return kUridCarlaTransientWindowId; // Custom plugin types return ((CarlaLv2Client*)handle)->getCustomURID(uri); } static const char* carla_lv2_urid_unmap(LV2_URID_Map_Handle handle, LV2_URID urid) { CARLA_SAFE_ASSERT_RETURN(handle != nullptr, nullptr); CARLA_SAFE_ASSERT_RETURN(urid != kUridNull, nullptr); carla_debug("carla_lv2_urid_unmap(%p, %i)", handle, urid); switch (urid) { // Atom types case kUridAtomBlank: return LV2_ATOM__Blank; case kUridAtomBool: return LV2_ATOM__Bool; case kUridAtomChunk: return LV2_ATOM__Chunk; case kUridAtomDouble: return LV2_ATOM__Double; case kUridAtomEvent: return LV2_ATOM__Event; case kUridAtomFloat: return LV2_ATOM__Float; case kUridAtomInt: return LV2_ATOM__Int; case kUridAtomLiteral: return LV2_ATOM__Literal; case kUridAtomLong: return LV2_ATOM__Long; case kUridAtomNumber: return LV2_ATOM__Number; case kUridAtomObject: return LV2_ATOM__Object; case kUridAtomPath: return LV2_ATOM__Path; case kUridAtomProperty: return LV2_ATOM__Property; case kUridAtomResource: return LV2_ATOM__Resource; case kUridAtomSequence: return LV2_ATOM__Sequence; case kUridAtomSound: return LV2_ATOM__Sound; case kUridAtomString: return LV2_ATOM__String; case kUridAtomTuple: return LV2_ATOM__Tuple; case kUridAtomURI: return LV2_ATOM__URI; case kUridAtomURID: return LV2_ATOM__URID; case kUridAtomVector: return LV2_ATOM__Vector; case kUridAtomTransferAtom: return LV2_ATOM__atomTransfer; case kUridAtomTransferEvent: return LV2_ATOM__eventTransfer; // BufSize types case kUridBufMaxLength: return LV2_BUF_SIZE__maxBlockLength; case kUridBufMinLength: return LV2_BUF_SIZE__minBlockLength; case kUridBufNominalLength: return LV2_BUF_SIZE__nominalBlockLength; case kUridBufSequenceSize: return LV2_BUF_SIZE__sequenceSize; // Log types case kUridLogError: return LV2_LOG__Error; case kUridLogNote: return LV2_LOG__Note; case kUridLogTrace: return LV2_LOG__Trace; case kUridLogWarning: return LV2_LOG__Warning; // Time types case kUridTimePosition: return LV2_TIME__Position; case kUridTimeBar: return LV2_TIME__bar; case kUridTimeBarBeat: return LV2_TIME__barBeat; case kUridTimeBeat: return LV2_TIME__beat; case kUridTimeBeatUnit: return LV2_TIME__beatUnit; case kUridTimeBeatsPerBar: return LV2_TIME__beatsPerBar; case kUridTimeBeatsPerMinute: return LV2_TIME__beatsPerMinute; case kUridTimeFrame: return LV2_TIME__frame; case kUridTimeFramesPerSecond: return LV2_TIME__framesPerSecond; case kUridTimeSpeed: return LV2_TIME__speed; case kUridTimeTicksPerBeat: return LV2_KXSTUDIO_PROPERTIES__TimePositionTicksPerBeat; // Others case kUridMidiEvent: return LV2_MIDI__MidiEvent; case kUridParamSampleRate: return LV2_PARAMETERS__sampleRate; case kUridWindowTitle: return LV2_UI__windowTitle; // Custom Carla types case kUridCarlaAtomWorker: return URI_CARLA_ATOM_WORKER; case kUridCarlaTransientWindowId: return LV2_KXSTUDIO_PROPERTIES__TransientWindowId; } // Custom types return ((CarlaLv2Client*)handle)->getCustomURIDString(urid); } // ---------------------------------------------------------------------------------------------------------------- // UI Port-Map Feature static uint32_t carla_lv2_ui_port_map(LV2UI_Feature_Handle handle, const char* symbol) { CARLA_SAFE_ASSERT_RETURN(handle != nullptr, LV2UI_INVALID_PORT_INDEX); carla_debug("carla_lv2_ui_port_map(%p, \"%s\")", handle, symbol); return ((CarlaLv2Client*)handle)->handleUiPortMap(symbol); } // ---------------------------------------------------------------------------------------------------------------- // UI Resize Feature static int carla_lv2_ui_resize(LV2UI_Feature_Handle handle, int width, int height) { CARLA_SAFE_ASSERT_RETURN(handle != nullptr, 1); carla_debug("carla_lv2_ui_resize(%p, %i, %i)", handle, width, height); return ((CarlaLv2Client*)handle)->handleUiResize(width, height); } // ---------------------------------------------------------------------------------------------------------------- // UI Extension static void carla_lv2_ui_write_function(LV2UI_Controller controller, uint32_t port_index, uint32_t buffer_size, uint32_t format, const void* buffer) { CARLA_SAFE_ASSERT_RETURN(controller != nullptr,); carla_debug("carla_lv2_ui_write_function(%p, %i, %i, %i, %p)", controller, port_index, buffer_size, format, buffer); ((CarlaLv2Client*)controller)->handleUiWrite(port_index, buffer_size, format, buffer); } CARLA_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR(CarlaLv2Client) }; // -------------------------------------------------------------------------------------------------------------------- CARLA_BRIDGE_UI_END_NAMESPACE // -------------------------------------------------------------------------------------------------------------------- int main(int argc, const char* argv[]) { CARLA_BRIDGE_UI_USE_NAMESPACE if (argc < 3) { carla_stderr("usage: %s ", argv[0]); return 1; } const bool testingModeOnly = (argc != 7); // try to get sampleRate value if (const char* const sampleRateStr = std::getenv("CARLA_SAMPLE_RATE")) gInitialSampleRate = std::atof(sampleRateStr); // Init LV2 client CarlaLv2Client client; // Load UI int ret; if (client.init(argc, argv)) { client.exec(testingModeOnly); ret = 0; } else { ret = 1; } return ret; } // --------------------------------------------------------------------------------------------------------------------