/* ============================================================================== This file is part of the JUCE library - "Jules' Utility Class Extensions" Copyright 2004-7 by Raw Material Software ltd. ------------------------------------------------------------------------------ JUCE can be redistributed and/or modified under the terms of the GNU General Public License, as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. JUCE 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 JUCE; if not, visit www.gnu.org/licenses or write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA ------------------------------------------------------------------------------ If you'd like to release a closed-source product which uses JUCE, commercial licenses are also available: visit www.rawmaterialsoftware.com/juce for more information. ============================================================================== */ #ifdef _MSC_VER #pragma warning (disable : 4996) #endif #ifdef _WIN32 #include #elif defined (LINUX) #include #include #include #undef KeyPress #else #include #endif #ifdef PRAGMA_ALIGN_SUPPORTED #undef PRAGMA_ALIGN_SUPPORTED #define PRAGMA_ALIGN_SUPPORTED 1 #endif #include "../juce_IncludeCharacteristics.h" #if JucePlugin_Build_VST //============================================================================== /* These files come with the Steinberg VST SDK - to get them, you'll need to visit the Steinberg website and jump through some hoops to sign up as a VST developer. Then, you'll need to make sure your include path contains your "vstsdk2.3" or "vstsdk2.4" directory. Note that the JUCE_USE_VSTSDK_2_4 macro should be defined in JucePluginCharacteristics.h */ #if JUCE_USE_VSTSDK_2_4 // VSTSDK V2.4 includes.. #include "public.sdk/source/vst2.x/audioeffectx.h" #include "public.sdk/source/vst2.x/aeffeditor.h" #include "public.sdk/source/vst2.x/audioeffectx.cpp" #include "public.sdk/source/vst2.x/audioeffect.cpp" #if JUCE_LINUX #define __cdecl #endif #if ! VST_2_4_EXTENSIONS #error // You're probably trying to include the wrong VSTSDK version - make sure your include path matches the JUCE_USE_VSTSDK_2_4 flag #endif #else // VSTSDK V2.3 includes.. #include "source/common/audioeffectx.h" #include "source/common/AEffEditor.hpp" #include "source/common/audioeffectx.cpp" #include "source/common/AudioEffect.cpp" #if (! VST_2_3_EXTENSIONS) || VST_2_4_EXTENSIONS #error // You're probably trying to include the wrong VSTSDK version - make sure your include path matches the JUCE_USE_VSTSDK_2_4 flag #endif typedef long VstInt32; typedef long VstIntPtr; enum Vst2StringConstants { kVstMaxNameLen = 64, kVstMaxLabelLen = 64, kVstMaxShortLabelLen = 8, kVstMaxCategLabelLen = 24, kVstMaxFileNameLen = 100 }; enum VstSmpteFrameRate { kVstSmpte24fps = 0, ///< 24 fps kVstSmpte25fps = 1, ///< 25 fps kVstSmpte2997fps = 2, ///< 29.97 fps kVstSmpte30fps = 3, ///< 30 fps kVstSmpte2997dfps = 4, ///< 29.97 drop kVstSmpte30dfps = 5, ///< 30 drop kVstSmpteFilm16mm = 6, ///< Film 16mm kVstSmpteFilm35mm = 7, ///< Film 35mm kVstSmpte239fps = 10, ///< HDTV: 23.976 fps kVstSmpte249fps = 11, ///< HDTV: 24.976 fps kVstSmpte599fps = 12, ///< HDTV: 59.94 fps kVstSmpte60fps = 13 ///< HDTV: 60 fps }; #endif //============================================================================== #ifdef _MSC_VER #pragma pack (push, 8) #endif #include "../juce_PluginHeaders.h" #ifdef _MSC_VER #pragma pack (pop) #endif #undef MemoryBlock class JuceVSTWrapper; static bool recursionCheck = false; static JUCE_NAMESPACE::uint32 lastMasterIdleCall = 0; BEGIN_JUCE_NAMESPACE extern void juce_callAnyTimersSynchronously(); #if JUCE_MAC extern void initialiseMac(); extern void juce_setCurrentExecutableFileNameFromBundleId (const String& bundleId) throw(); extern void* attachComponentToWindowRef (Component* component, void* windowRef); extern void detachComponentFromWindowRef (Component* component, void* nsWindow); extern void setNativeHostWindowSize (void* nsWindow, Component* editorComp, int newWidth, int newHeight); extern void checkWindowVisibility (void* nsWindow, Component* component); #endif #if JUCE_LINUX extern Display* display; extern bool juce_postMessageToSystemQueue (void* message); #endif END_JUCE_NAMESPACE //============================================================================== #if JUCE_WIN32 static HWND findMDIParentOf (HWND w) { const int frameThickness = GetSystemMetrics (SM_CYFIXEDFRAME); while (w != 0) { HWND parent = GetParent (w); if (parent == 0) break; TCHAR windowType [32]; zeromem (windowType, sizeof (windowType)); GetClassName (parent, windowType, 31); if (String (windowType).equalsIgnoreCase (T("MDIClient"))) { w = parent; break; } RECT windowPos; GetWindowRect (w, &windowPos); RECT parentPos; GetWindowRect (parent, &parentPos); const int dw = (parentPos.right - parentPos.left) - (windowPos.right - windowPos.left); const int dh = (parentPos.bottom - parentPos.top) - (windowPos.bottom - windowPos.top); if (dw > 100 || dh > 100) break; w = parent; if (dw == 2 * frameThickness) break; } return w; } //============================================================================== #elif JUCE_LINUX class SharedMessageThread : public Thread { public: SharedMessageThread() : Thread (T("VstMessageThread")) { startThread (7); } ~SharedMessageThread() { signalThreadShouldExit(); JUCEApplication::quit(); waitForThreadToExit (5000); clearSingletonInstance(); } void run() { MessageManager* const messageManager = MessageManager::getInstance(); const Thread::ThreadID originalThreadId = messageManager->getCurrentMessageThread(); messageManager->setCurrentMessageThread (Thread::getCurrentThreadId()); while ((! threadShouldExit()) && messageManager->runDispatchLoopUntil (250)) { } messageManager->setCurrentMessageThread (originalThreadId); } juce_DeclareSingleton (SharedMessageThread, false) }; #endif //============================================================================== // A component to hold the AudioProcessorEditor, and cope with some housekeeping // chores when it changes or repaints. class EditorCompWrapper : public Component, public AsyncUpdater { JuceVSTWrapper* wrapper; public: EditorCompWrapper (JuceVSTWrapper* const wrapper_, AudioProcessorEditor* const editor) : wrapper (wrapper_) { setOpaque (true); editor->setOpaque (true); setBounds (editor->getBounds()); editor->setTopLeftPosition (0, 0); addAndMakeVisible (editor); #if JUCE_WIN32 addMouseListener (this, true); #endif } ~EditorCompWrapper() { deleteAllChildren(); } void paint (Graphics& g) { } void paintOverChildren (Graphics& g) { // this causes an async call to masterIdle() to help // creaky old DAWs like Nuendo repaint themselves while we're // repainting. Otherwise they just seem to give up and sit there // waiting. triggerAsyncUpdate(); } AudioProcessorEditor* getEditorComp() const { return dynamic_cast (getChildComponent (0)); } void resized() { Component* const c = getChildComponent (0); if (c != 0) { #if JUCE_LINUX const MessageManagerLock mml; #endif c->setBounds (0, 0, getWidth(), getHeight()); } } void childBoundsChanged (Component* child); void handleAsyncUpdate(); #if JUCE_WIN32 void mouseDown (const MouseEvent&) { broughtToFront(); } void broughtToFront() { // for hosts like nuendo, need to also pop the MDI container to the // front when our comp is clicked on. HWND parent = findMDIParentOf ((HWND) getWindowHandle()); if (parent != 0) { SetWindowPos (parent, HWND_TOP, 0, 0, 0, 0, SWP_NOMOVE | SWP_NOSIZE); } } #endif //============================================================================== juce_UseDebuggingNewOperator }; static VoidArray activePlugins; //============================================================================== /** This wraps an AudioProcessor as an AudioEffectX... */ class JuceVSTWrapper : public AudioEffectX, private Timer, public AudioProcessorListener, public AudioPlayHead { public: //============================================================================== JuceVSTWrapper (audioMasterCallback audioMaster, AudioProcessor* const filter_) : AudioEffectX (audioMaster, filter_->getNumPrograms(), filter_->getNumParameters()), filter (filter_) { editorComp = 0; chunkMemoryTime = 0; isProcessing = false; hasShutdown = false; firstProcessCallback = true; shouldDeleteEditor = false; channels = 0; numInChans = JucePlugin_MaxNumInputChannels; numOutChans = JucePlugin_MaxNumOutputChannels; #if JUCE_MAC || JUCE_LINUX hostWindow = 0; #endif filter->setPlayConfigDetails (numInChans, numOutChans, 0, 0); filter_->setPlayHead (this); filter_->addListener (this); cEffect.flags |= effFlagsHasEditor; cEffect.version = (long) (JucePlugin_VersionCode); setUniqueID ((int) (JucePlugin_VSTUniqueID)); #if JucePlugin_WantsMidiInput && ! JUCE_USE_VSTSDK_2_4 wantEvents(); #endif setNumInputs (numInChans); setNumOutputs (numOutChans); canProcessReplacing (true); #if ! JUCE_USE_VSTSDK_2_4 hasVu (false); hasClip (false); #endif isSynth ((JucePlugin_IsSynth) != 0); noTail ((JucePlugin_SilenceInProducesSilenceOut) != 0); setInitialDelay (filter->getLatencySamples()); programsAreChunks (true); activePlugins.add (this); } ~JuceVSTWrapper() { stopTimer(); deleteEditor (false); hasShutdown = true; delete filter; filter = 0; jassert (editorComp == 0); juce_free (channels); channels = 0; deleteTempChannels(); jassert (activePlugins.contains (this)); activePlugins.removeValue (this); if (activePlugins.size() == 0) { #if JUCE_LINUX SharedMessageThread::deleteInstance(); #endif shutdownJuce_GUI(); } } void open() { if (editorComp == 0) { #if JUCE_LINUX const MessageManagerLock mml; #endif AudioProcessorEditor* const ed = filter->createEditorIfNeeded(); if (ed != 0) cEffect.flags |= effFlagsHasEditor; else cEffect.flags &= ~effFlagsHasEditor; filter->editorBeingDeleted (ed); delete ed; } startTimer (1000 / 4); } void close() { jassert (! recursionCheck); stopTimer(); deleteEditor (false); } //============================================================================== bool getEffectName (char* name) { String (JucePlugin_Name).copyToBuffer (name, 64); return true; } bool getVendorString (char* text) { String (JucePlugin_Manufacturer).copyToBuffer (text, 64); return true; } bool getProductString (char* text) { return getEffectName (text); } VstInt32 getVendorVersion() { return JucePlugin_VersionCode; } VstPlugCategory getPlugCategory() { return JucePlugin_VSTCategory; } VstInt32 canDo (char* text) { VstInt32 result = 0; if (strcmp (text, "receiveVstEvents") == 0 || strcmp (text, "receiveVstMidiEvent") == 0 || strcmp (text, "receiveVstMidiEvents") == 0) { #if JucePlugin_WantsMidiInput result = 1; #else result = -1; #endif } else if (strcmp (text, "sendVstEvents") == 0 || strcmp (text, "sendVstMidiEvent") == 0 || strcmp (text, "sendVstMidiEvents") == 0) { #if JucePlugin_ProducesMidiOutput result = 1; #else result = -1; #endif } else if (strcmp (text, "receiveVstTimeInfo") == 0 || strcmp (text, "conformsToWindowRules") == 0) { result = 1; } return result; } bool keysRequired() { return (JucePlugin_EditorRequiresKeyboardFocus) != 0; } bool getInputProperties (VstInt32 index, VstPinProperties* properties) { if (filter == 0 || index >= filter->getNumInputChannels()) return false; const String name (filter->getInputChannelName ((int) index)); name.copyToBuffer (properties->label, kVstMaxLabelLen - 1); name.copyToBuffer (properties->shortLabel, kVstMaxShortLabelLen - 1); properties->flags = kVstPinIsActive; if (filter->isInputChannelStereoPair ((int) index)) properties->flags |= kVstPinIsStereo; properties->arrangementType = 0; return true; } bool getOutputProperties (VstInt32 index, VstPinProperties* properties) { if (filter == 0 || index >= filter->getNumOutputChannels()) return false; const String name (filter->getOutputChannelName ((int) index)); name.copyToBuffer (properties->label, kVstMaxLabelLen - 1); name.copyToBuffer (properties->shortLabel, kVstMaxShortLabelLen - 1); properties->flags = kVstPinIsActive; if (filter->isOutputChannelStereoPair ((int) index)) properties->flags |= kVstPinIsStereo; properties->arrangementType = 0; return true; } //============================================================================== VstInt32 processEvents (VstEvents* events) { #if JucePlugin_WantsMidiInput VSTMidiEventList::addEventsToMidiBuffer (events, midiEvents); return 1; #else return 0; #endif } void process (float** inputs, float** outputs, VstInt32 numSamples) { const int numIn = numInChans; const int numOut = numOutChans; AudioSampleBuffer temp (numIn, numSamples); int i; for (i = numIn; --i >= 0;) memcpy (temp.getSampleData (i), outputs[i], sizeof (float) * numSamples); processReplacing (inputs, outputs, numSamples); AudioSampleBuffer dest (outputs, numOut, numSamples); for (i = jmin (numIn, numOut); --i >= 0;) dest.addFrom (i, 0, temp, i, 0, numSamples); } void processReplacing (float** inputs, float** outputs, VstInt32 numSamples) { if (firstProcessCallback) { firstProcessCallback = false; // if this fails, the host hasn't called resume() before processing jassert (isProcessing); // (tragically, some hosts actually need this, although it's stupid to have // to do it here..) if (! isProcessing) resume(); filter->setNonRealtime (getCurrentProcessLevel() == 4 /* kVstProcessLevelOffline */); #if JUCE_WIN32 if (GetThreadPriority (GetCurrentThread()) <= THREAD_PRIORITY_NORMAL) filter->setNonRealtime (true); #endif } #if JUCE_DEBUG && ! JucePlugin_ProducesMidiOutput const int numMidiEventsComingIn = midiEvents.getNumEvents(); #endif jassert (activePlugins.contains (this)); { const ScopedLock sl (filter->getCallbackLock()); const int numIn = numInChans; const int numOut = numOutChans; if (filter->isSuspended()) { for (int i = 0; i < numOut; ++i) zeromem (outputs[i], sizeof (float) * numSamples); } else { int i; for (i = 0; i < numOut; ++i) { float* chan = (float*) tempChannels.getUnchecked(i); if (chan == 0) { chan = outputs[i]; // if some output channels are disabled, some hosts supply the same buffer // for multiple channels - this buggers up our method of copying the // inputs over the outputs, so we need to create unique temp buffers in this case.. for (int j = i; --j >= 0;) { if (outputs[j] == chan) { chan = (float*) juce_malloc (sizeof (float) * blockSize * 2); tempChannels.set (i, chan); break; } } } if (i < numIn && chan != inputs[i]) memcpy (chan, inputs[i], sizeof (float) * numSamples); channels[i] = chan; } for (; i < numIn; ++i) channels[i] = inputs[i]; AudioSampleBuffer chans (channels, jmax (numIn, numOut), numSamples); filter->processBlock (chans, midiEvents); } } if (! midiEvents.isEmpty()) { #if JucePlugin_ProducesMidiOutput const int numEvents = midiEvents.getNumEvents(); outgoingEvents.ensureSize (numEvents); outgoingEvents.clear(); const JUCE_NAMESPACE::uint8* midiEventData; int midiEventSize, midiEventPosition; MidiBuffer::Iterator i (midiEvents); while (i.getNextEvent (midiEventData, midiEventSize, midiEventPosition)) { jassert (midiEventPosition >= 0 && midiEventPosition < numSamples); outgoingEvents.addEvent (midiEventData, midiEventSize, midiEventPosition); } sendVstEventsToHost (outgoingEvents.events); #else /* This assertion is caused when you've added some events to the midiMessages array in your processBlock() method, which usually means that you're trying to send them somewhere. But in this case they're getting thrown away. If your plugin does want to send midi messages, you'll need to set the JucePlugin_ProducesMidiOutput macro to 1 in your JucePluginCharacteristics.h file. If you don't want to produce any midi output, then you should clear the midiMessages array at the end of your processBlock() method, to indicate that you don't want any of the events to be passed through to the output. */ jassert (midiEvents.getNumEvents() <= numMidiEventsComingIn); #endif midiEvents.clear(); } } //============================================================================== VstInt32 startProcess () { return 0; } VstInt32 stopProcess () { return 0;} void resume() { if (filter == 0) return; isProcessing = true; juce_free (channels); channels = (float**) juce_calloc (sizeof (float*) * (numInChans + numOutChans)); double rate = getSampleRate(); jassert (rate > 0); if (rate <= 0.0) rate = 44100.0; const int blockSize = getBlockSize(); jassert (blockSize > 0); firstProcessCallback = true; filter->setNonRealtime (getCurrentProcessLevel() == 4 /* kVstProcessLevelOffline */); filter->setPlayConfigDetails (numInChans, numOutChans, rate, blockSize); deleteTempChannels(); filter->prepareToPlay (rate, blockSize); midiEvents.clear(); setInitialDelay (filter->getLatencySamples()); AudioEffectX::resume(); #if JucePlugin_ProducesMidiOutput outgoingEvents.ensureSize (64); #endif #if JucePlugin_WantsMidiInput && ! JUCE_USE_VSTSDK_2_4 wantEvents(); #endif } void suspend() { if (filter == 0) return; AudioEffectX::suspend(); filter->releaseResources(); outgoingEvents.freeEvents(); isProcessing = false; juce_free (channels); channels = 0; deleteTempChannels(); } bool getCurrentPosition (AudioPlayHead::CurrentPositionInfo& info) { const VstTimeInfo* const ti = getTimeInfo (kVstPpqPosValid | kVstTempoValid | kVstBarsValid //| kVstCyclePosValid | kVstTimeSigValid | kVstSmpteValid | kVstClockValid); if (ti == 0 || ti->sampleRate <= 0) return false; if ((ti->flags & kVstTempoValid) != 0) info.bpm = ti->tempo; else info.bpm = 0.0; if ((ti->flags & kVstTimeSigValid) != 0) { info.timeSigNumerator = ti->timeSigNumerator; info.timeSigDenominator = ti->timeSigDenominator; } else { info.timeSigNumerator = 4; info.timeSigDenominator = 4; } info.timeInSeconds = ti->samplePos / ti->sampleRate; if ((ti->flags & kVstPpqPosValid) != 0) info.ppqPosition = ti->ppqPos; else info.ppqPosition = 0.0; if ((ti->flags & kVstBarsValid) != 0) info.ppqPositionOfLastBarStart = ti->barStartPos; else info.ppqPositionOfLastBarStart = 0.0; if ((ti->flags & kVstSmpteValid) != 0) { AudioPlayHead::FrameRateType rate = AudioPlayHead::fpsUnknown; double fps = 1.0; switch (ti->smpteFrameRate) { case kVstSmpte24fps: rate = AudioPlayHead::fps24; fps = 24.0; break; case kVstSmpte25fps: rate = AudioPlayHead::fps25; fps = 25.0; break; case kVstSmpte2997fps: rate = AudioPlayHead::fps2997; fps = 29.97; break; case kVstSmpte30fps: rate = AudioPlayHead::fps30; fps = 30.0; break; case kVstSmpte2997dfps: rate = AudioPlayHead::fps2997drop; fps = 29.97; break; case kVstSmpte30dfps: rate = AudioPlayHead::fps30drop; fps = 30.0; break; case kVstSmpteFilm16mm: case kVstSmpteFilm35mm: fps = 24.0; break; case kVstSmpte239fps: fps = 23.976; break; case kVstSmpte249fps: fps = 24.976; break; case kVstSmpte599fps: fps = 59.94; break; case kVstSmpte60fps: fps = 60; break; default: jassertfalse // unknown frame-rate.. } info.frameRate = rate; info.editOriginTime = ti->smpteOffset / (80.0 * fps); } else { info.frameRate = AudioPlayHead::fpsUnknown; info.editOriginTime = 0; } info.isRecording = (ti->flags & kVstTransportRecording) != 0; info.isPlaying = (ti->flags & kVstTransportPlaying) != 0 || info.isRecording; return true; } //============================================================================== VstInt32 getProgram() { return filter != 0 ? filter->getCurrentProgram() : 0; } void setProgram (VstInt32 program) { if (filter != 0) filter->setCurrentProgram (program); } void setProgramName (char* name) { if (filter != 0) filter->changeProgramName (filter->getCurrentProgram(), name); } void getProgramName (char* name) { if (filter != 0) filter->getProgramName (filter->getCurrentProgram()).copyToBuffer (name, 24); } bool getProgramNameIndexed (VstInt32 category, VstInt32 index, char* text) { if (filter != 0 && ((unsigned int) index) < (unsigned int) filter->getNumPrograms()) { filter->getProgramName (index).copyToBuffer (text, 24); return true; } return false; } //============================================================================== float getParameter (VstInt32 index) { if (filter == 0) return 0.0f; jassert (((unsigned int) index) < (unsigned int) filter->getNumParameters()); return filter->getParameter (index); } void setParameter (VstInt32 index, float value) { if (filter != 0) { jassert (((unsigned int) index) < (unsigned int) filter->getNumParameters()); filter->setParameter (index, value); } } void getParameterDisplay (VstInt32 index, char* text) { if (filter != 0) { jassert (((unsigned int) index) < (unsigned int) filter->getNumParameters()); filter->getParameterText (index).copyToBuffer (text, 24); // length should technically be kVstMaxParamStrLen, which is 8, but hosts will normally allow a bit more. } } void getParameterName (VstInt32 index, char* text) { if (filter != 0) { jassert (((unsigned int) index) < (unsigned int) filter->getNumParameters()); filter->getParameterName (index).copyToBuffer (text, 16); // length should technically be kVstMaxParamStrLen, which is 8, but hosts will normally allow a bit more. } } void audioProcessorParameterChanged (AudioProcessor*, int index, float newValue) { setParameterAutomated (index, newValue); } void audioProcessorParameterChangeGestureBegin (AudioProcessor*, int index) { beginEdit (index); } void audioProcessorParameterChangeGestureEnd (AudioProcessor*, int index) { endEdit (index); } void audioProcessorChanged (AudioProcessor*) { updateDisplay(); } bool canParameterBeAutomated (VstInt32 index) { return filter != 0 && filter->isParameterAutomatable ((int) index); } bool setSpeakerArrangement (VstSpeakerArrangement* pluginInput, VstSpeakerArrangement* pluginOutput) { if (numInChans != pluginInput->numChannels || numOutChans != pluginOutput->numChannels) { setNumInputs (pluginInput->numChannels); setNumOutputs (pluginOutput->numChannels); ioChanged(); } numInChans = pluginInput->numChannels; numOutChans = pluginOutput->numChannels; filter->setPlayConfigDetails (numInChans, numOutChans, filter->getSampleRate(), filter->getBlockSize()); return true; } //============================================================================== VstInt32 getChunk (void** data, bool onlyStoreCurrentProgramData) { if (filter == 0) return 0; chunkMemory.setSize (0); if (onlyStoreCurrentProgramData) filter->getCurrentProgramStateInformation (chunkMemory); else filter->getStateInformation (chunkMemory); *data = (void*) chunkMemory; // because the chunk is only needed temporarily by the host (or at least you'd // hope so) we'll give it a while and then free it in the timer callback. chunkMemoryTime = JUCE_NAMESPACE::Time::getApproximateMillisecondCounter(); return chunkMemory.getSize(); } VstInt32 setChunk (void* data, VstInt32 byteSize, bool onlyRestoreCurrentProgramData) { if (filter == 0) return 0; chunkMemory.setSize (0); chunkMemoryTime = 0; if (byteSize > 0 && data != 0) { if (onlyRestoreCurrentProgramData) filter->setCurrentProgramStateInformation (data, byteSize); else filter->setStateInformation (data, byteSize); } return 0; } void timerCallback() { if (shouldDeleteEditor) { shouldDeleteEditor = false; deleteEditor (true); } if (chunkMemoryTime > 0 && chunkMemoryTime < JUCE_NAMESPACE::Time::getApproximateMillisecondCounter() - 2000 && ! recursionCheck) { chunkMemoryTime = 0; chunkMemory.setSize (0); } #if JUCE_MAC if (hostWindow != 0) checkWindowVisibility (hostWindow, editorComp); #endif tryMasterIdle(); } void tryMasterIdle() { if (Component::isMouseButtonDownAnywhere() && ! recursionCheck) { const JUCE_NAMESPACE::uint32 now = JUCE_NAMESPACE::Time::getMillisecondCounter(); if (now > lastMasterIdleCall + 20 && editorComp != 0) { lastMasterIdleCall = now; recursionCheck = true; masterIdle(); recursionCheck = false; } } } void doIdleCallback() { // (wavelab calls this on a separate thread and causes a deadlock).. if (MessageManager::getInstance()->isThisTheMessageThread() && ! recursionCheck) { const MessageManagerLock mml; recursionCheck = true; juce_callAnyTimersSynchronously(); for (int i = ComponentPeer::getNumPeers(); --i >= 0;) ComponentPeer::getPeer (i)->performAnyPendingRepaintsNow(); recursionCheck = false; } } void createEditorComp() { if (hasShutdown || filter == 0) return; if (editorComp == 0) { #if JUCE_LINUX const MessageManagerLock mml; #endif AudioProcessorEditor* const ed = filter->createEditorIfNeeded(); if (ed != 0) { cEffect.flags |= effFlagsHasEditor; ed->setOpaque (true); ed->setVisible (true); editorComp = new EditorCompWrapper (this, ed); } else { cEffect.flags &= ~effFlagsHasEditor; } } shouldDeleteEditor = false; } void deleteEditor (bool canDeleteLaterIfModal) { PopupMenu::dismissAllActiveMenus(); jassert (! recursionCheck); recursionCheck = true; #if JUCE_LINUX const MessageManagerLock mml; #endif if (editorComp != 0) { Component* const modalComponent = Component::getCurrentlyModalComponent(); if (modalComponent != 0) { modalComponent->exitModalState (0); if (canDeleteLaterIfModal) { shouldDeleteEditor = true; return; } } #if JUCE_MAC if (hostWindow != 0) { detachComponentFromWindowRef (editorComp, hostWindow); hostWindow = 0; } #endif filter->editorBeingDeleted (editorComp->getEditorComp()); deleteAndZero (editorComp); // there's some kind of component currently modal, but the host // is trying to delete our plugin. You should try to avoid this happening.. jassert (Component::getCurrentlyModalComponent() == 0); } #if JUCE_LINUX hostWindow = 0; #endif recursionCheck = false; } VstIntPtr dispatcher (VstInt32 opCode, VstInt32 index, VstIntPtr value, void* ptr, float opt) { if (hasShutdown) return 0; if (opCode == effEditIdle) { doIdleCallback(); return 0; } else if (opCode == effEditOpen) { jassert (! recursionCheck); deleteEditor (true); createEditorComp(); if (editorComp != 0) { #if JUCE_LINUX const MessageManagerLock mml; #endif editorComp->setOpaque (true); editorComp->setVisible (false); #if JUCE_WIN32 editorComp->addToDesktop (0); hostWindow = (HWND) ptr; HWND editorWnd = (HWND) editorComp->getWindowHandle(); SetParent (editorWnd, hostWindow); DWORD val = GetWindowLong (editorWnd, GWL_STYLE); val = (val & ~WS_POPUP) | WS_CHILD; SetWindowLong (editorWnd, GWL_STYLE, val); #elif JUCE_LINUX editorComp->addToDesktop (0); hostWindow = (Window) ptr; Window editorWnd = (Window) editorComp->getWindowHandle(); XReparentWindow (display, editorWnd, hostWindow, 0, 0); #else hostWindow = attachComponentToWindowRef (editorComp, (WindowRef) ptr); #endif editorComp->setVisible (true); return 1; } } else if (opCode == effEditClose) { deleteEditor (true); return 0; } else if (opCode == effEditGetRect) { createEditorComp(); if (editorComp != 0) { editorSize.left = 0; editorSize.top = 0; editorSize.right = editorComp->getWidth(); editorSize.bottom = editorComp->getHeight(); *((ERect**) ptr) = &editorSize; return (VstIntPtr) (pointer_sized_int) &editorSize; } else { return 0; } } return AudioEffectX::dispatcher (opCode, index, value, ptr, opt); } void resizeHostWindow (int newWidth, int newHeight) { if (editorComp != 0) { #if ! JUCE_LINUX // linux hosts shouldn't be trusted! if (! (canHostDo ("sizeWindow") && sizeWindow (newWidth, newHeight))) #endif { // some hosts don't support the sizeWindow call, so do it manually.. #if JUCE_MAC setNativeHostWindowSize (hostWindow, editorComp, newWidth, newHeight); #elif JUCE_LINUX Window root; int x, y; unsigned int width, height, border, depth; XGetGeometry (display, hostWindow, &root, &x, &y, &width, &height, &border, &depth); newWidth += (width + border) - editorComp->getWidth(); newHeight += (height + border) - editorComp->getHeight(); XResizeWindow (display, hostWindow, newWidth, newHeight); #else int dw = 0; int dh = 0; const int frameThickness = GetSystemMetrics (SM_CYFIXEDFRAME); HWND w = (HWND) editorComp->getWindowHandle(); while (w != 0) { HWND parent = GetParent (w); if (parent == 0) break; TCHAR windowType [32]; zeromem (windowType, sizeof (windowType)); GetClassName (parent, windowType, 31); if (String (windowType).equalsIgnoreCase (T("MDIClient"))) break; RECT windowPos; GetWindowRect (w, &windowPos); RECT parentPos; GetWindowRect (parent, &parentPos); SetWindowPos (w, 0, 0, 0, newWidth + dw, newHeight + dh, SWP_NOACTIVATE | SWP_NOMOVE | SWP_NOZORDER | SWP_NOOWNERZORDER); dw = (parentPos.right - parentPos.left) - (windowPos.right - windowPos.left); dh = (parentPos.bottom - parentPos.top) - (windowPos.bottom - windowPos.top); w = parent; if (dw == 2 * frameThickness) break; if (dw > 100 || dh > 100) w = 0; } if (w != 0) SetWindowPos (w, 0, 0, 0, newWidth + dw, newHeight + dh, SWP_NOACTIVATE | SWP_NOMOVE | SWP_NOZORDER | SWP_NOOWNERZORDER); #endif } if (editorComp->getPeer() != 0) editorComp->getPeer()->handleMovedOrResized(); } } //============================================================================== juce_UseDebuggingNewOperator private: AudioProcessor* filter; JUCE_NAMESPACE::MemoryBlock chunkMemory; JUCE_NAMESPACE::uint32 chunkMemoryTime; EditorCompWrapper* editorComp; ERect editorSize; MidiBuffer midiEvents; VSTMidiEventList outgoingEvents; bool isProcessing; bool hasShutdown; bool firstProcessCallback; int diffW, diffH; int numInChans, numOutChans; float** channels; VoidArray tempChannels; // see note in processReplacing() bool hasCreatedTempChannels; bool shouldDeleteEditor; void deleteTempChannels() { int i; for (i = tempChannels.size(); --i >= 0;) juce_free (tempChannels.getUnchecked(i)); tempChannels.clear(); if (filter != 0) tempChannels.insertMultiple (0, 0, filter->getNumInputChannels() + filter->getNumOutputChannels()); hasCreatedTempChannels = false; } const String getHostName() { char host[256]; zeromem (host, sizeof (host)); getHostProductString (host); return host; } #if JUCE_MAC void* hostWindow; #elif JUCE_LINUX Window hostWindow; #else HWND hostWindow; #endif }; //============================================================================== void EditorCompWrapper::childBoundsChanged (Component* child) { child->setTopLeftPosition (0, 0); const int cw = child->getWidth(); const int ch = child->getHeight(); wrapper->resizeHostWindow (cw, ch); setSize (cw, ch); #if JUCE_MAC wrapper->resizeHostWindow (cw, ch); // (doing this a second time seems to be necessary in tracktion) #endif } void EditorCompWrapper::handleAsyncUpdate() { wrapper->tryMasterIdle(); } //============================================================================== /** Somewhere in the codebase of your plugin, you need to implement this function and make it create an instance of the filter subclass that you're building. */ extern AudioProcessor* JUCE_CALLTYPE createPluginFilter(); //============================================================================== static AEffect* pluginEntryPoint (audioMasterCallback audioMaster) { initialiseJuce_GUI(); #if JUCE_MAC && defined (JucePlugin_CFBundleIdentifier) juce_setCurrentExecutableFileNameFromBundleId (JucePlugin_CFBundleIdentifier); #endif try { if (audioMaster (0, audioMasterVersion, 0, 0, 0, 0) != 0) { AudioProcessor* const filter = createPluginFilter(); if (filter != 0) { JuceVSTWrapper* const wrapper = new JuceVSTWrapper (audioMaster, filter); return wrapper->getAeffect(); } } } catch (...) {} return 0; } //============================================================================== // Mac startup code.. #if JUCE_MAC extern "C" __attribute__ ((visibility("default"))) AEffect* VSTPluginMain (audioMasterCallback audioMaster) { initialiseMac(); return pluginEntryPoint (audioMaster); } extern "C" __attribute__ ((visibility("default"))) AEffect* main_macho (audioMasterCallback audioMaster) { initialiseMac(); return pluginEntryPoint (audioMaster); } //============================================================================== // Linux startup code.. #elif JUCE_LINUX extern "C" AEffect* VSTPluginMain (audioMasterCallback audioMaster) { initialiseJuce_GUI(); SharedMessageThread::getInstance(); return pluginEntryPoint (audioMaster); } extern "C" __attribute__ ((visibility("default"))) AEffect* main_plugin (audioMasterCallback audioMaster) asm ("main"); extern "C" __attribute__ ((visibility("default"))) AEffect* main_plugin (audioMasterCallback audioMaster) { return VSTPluginMain (audioMaster); } __attribute__((constructor)) void myPluginInit() { // don't put initialiseJuce_GUI here... it will crash ! } __attribute__((destructor)) void myPluginFini() { // don't put shutdownJuce_GUI here... it will crash ! } //============================================================================== // Win32 startup code.. #else extern "C" __declspec (dllexport) AEffect* VSTPluginMain (audioMasterCallback audioMaster) { return pluginEntryPoint (audioMaster); } #ifndef _WIN64 // (can't compile this on win64, but it's not needed anyway with VST2.4) extern "C" __declspec (dllexport) void* main (audioMasterCallback audioMaster) { return (void*) pluginEntryPoint (audioMaster); } #endif #if JucePlugin_Build_RTAS BOOL WINAPI DllMainVST (HINSTANCE instance, DWORD dwReason, LPVOID) #else extern "C" BOOL WINAPI DllMain (HINSTANCE instance, DWORD dwReason, LPVOID) #endif { if (dwReason == DLL_PROCESS_ATTACH) PlatformUtilities::setCurrentModuleInstanceHandle (instance); return TRUE; } #endif #endif