/* * Copyright (C) 2008-2014 David Robillard * Copyright (C) 2008-2016 Paul Davis * Copyright (C) 2014-2019 Robin Gareus * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ #undef Marker #define Marker FuckYouAppleAndYourLackOfNameSpaces #include #include #include #include #include "pbd/convert.h" #include "pbd/error.h" #include "ardour/auditioner.h" #include "ardour/audio_unit.h" #include "ardour/debug.h" #include "ardour/plugin_insert.h" #undef check // stupid gtk, stupid apple #include #include #include "au_pluginui.h" #include "gui_thread.h" #include "processor_box.h" // yes, yes we know (see wscript for various available OSX compat modes) #if defined (__clang__) # pragma clang diagnostic push # pragma clang diagnostic ignored "-Wdeprecated-declarations" #endif #include "CAAudioUnit.h" #include "CAComponent.h" #if defined (__clang__) # pragma clang diagnostic pop #endif #import #import #import #ifndef __ppc__ #include #endif #undef Marker #include "keyboard.h" #include "utils.h" #include "public_editor.h" #include "pbd/i18n.h" #include "gtk2ardour-config.h" using namespace ARDOUR; using namespace Gtk; using namespace Gtkmm2ext; using namespace std; using namespace PBD; vector AUPluginUI::automation_mode_strings; int64_t AUPluginUI::last_timer = 0; bool AUPluginUI::timer_needed = true; CFRunLoopTimerRef AUPluginUI::cf_timer; sigc::connection AUPluginUI::timer_connection; static const gchar* _automation_mode_strings[] = { X_("Manual"), X_("Play"), X_("Write"), X_("Touch"), 0 }; static void dump_view_tree (NSView* view, int depth, int maxdepth) { NSArray* subviews = [view subviews]; unsigned long cnt = [subviews count]; if (depth == 0) { NSView* su = [view superview]; if (su) { NSRect sf = [su frame]; cout << " PARENT view " << su << " @ " << sf.origin.x << ", " << sf.origin.y << ' ' << sf.size.width << " x " << sf.size.height << endl; } } for (int d = 0; d < depth; d++) { cout << '\t'; } NSRect frame = [view frame]; cout << " view " << view << " @ " << frame.origin.x << ", " << frame.origin.y << ' ' << frame.size.width << " x " << frame.size.height << endl; if (depth >= maxdepth) { return; } for (unsigned long i = 0; i < cnt; ++i) { NSView* subview = [subviews objectAtIndex:i]; dump_view_tree (subview, depth+1, maxdepth); } } /* This deeply hacky block of code exists for a rather convoluted reason. * * The proximal reason is that there are plugins (such as XLN's Addictive Drums * 2) which redraw their GUI/editor windows using a timer, and use a drawing * technique that on Retina displays ends up calling arg32_image_mark_RGB32, a * function that for some reason (probably byte-swapping or pixel-doubling) is * many times slower than the function used on non-Retina displays. * * We are not the first people to discover the problem with * arg32_image_mark_RGB32. * * Justin Fraenkel, the lead author of Reaper, wrote a very detailed account of * the performance issues with arg32_image_mark_RGB32 here: * http://www.1014.org/?article=516 * * The problem was also seen by Robert O'Callahan (lead developer of rr, the * reverse debugger) as far back as 2010: * http://robert.ocallahan.org/2010/05/cglayer-performance-trap-with-isflipped_03.html * * In fact, it is so slow that the drawing takes up close to 100% of a single * core, and the event loop that the drawing occurs in never sleeps or "idles". * * In AU hosts built directly on top of Cocoa, or some other toolkits, this * isn't inherently a major problem - it just makes the entire GUI of the * application slow. * * However, there is an additional problem for Ardour because GTK+ is built on * top of the GDK/Quartz event loop integration. This integration is rather * baroque, mostly because it was written at a time when CFRunLoop did not * offer a way to wait for "input" from file descriptors (which arrived in OS X * 10.5). As a result, it uses a hair-raising design involving an additional * thread. This design has a major problem, which is that it effectively * creates two nested run loops. * * The GTK+/GDK/glib one runs until it has nothing to do, at which time it * calls a function to wait until there is something to do. On Linux or Windows * that would involve some variant or relative of poll(2), which puts the * process to sleep until there is something to do. * * On OS X, glib ends up calling [CFRunLoop waitForNextEventMatchingMask] which * will eventually put the process to sleep, but won't do so until the * CFRunLoop also has nothing to do. This includes (at least) a complete redraw * cycle. If redrawing takes too long, and there are timers expired for another * redraw (e.g. Addictive Drums 2, again), then the CFRunLoop will just start * another redraw cycle after processing any events and other stuff. * * If the CFRunLoop stays busy, then it will never return to the glib * level at all, thus stopping any further GTK+ level activity (events, * drawing) from taking place. In short, the current (spring 2016) design of * the GDK/Quartz event loop integration relies on the idea that the internal * CFRunLoop will go idle, and totally breaks if this does not happen. * * So take a fully functional Ardour, add in XLN's Addictive Drums 2, and a * Retina display, and Apple's ridiculously slow blitting code, and the * CFRunLoop never goes idle. As soon as Addictive Drums starts drawing (over * and over again), the GTK+ event loop stops receiving events and stops * drawing. * * One fix for this was to run a nested GTK+ event loop iteration (or two) * whenever a plugin window was redrawn. This works in the sense that the * immediate issue (no GTK+ events or drawing) is fixed. But the recursive GTK+ * event loop causes its own (very subtle) problems too. * * This code takes a rather radical approach. We use Objective C's ability to * swizzle object methods. Specifically, we replace [NSView displayIfNeeded] * with our own version which will skip redraws of plugin windows if we tell it * too. If we haven't done that, or if the redraw is of a non-plugin window, * then we invoke the original displayIfNeeded method. * * After every 10 redraws of a given plugin GUI/editor window, we queue up a * GTK/glib idle callback to measure the interval between those idle * callbacks. We do this globally across all plugin windows, so if the callback * is already queued, we don't requeue it. * * If the interval is longer than 40msec (a 25fps redraw rate), we set * block_plugin_redraws to some number. Each successive call to our interposed * displayIfNeeded method will (a) check this value and if non-zero (b) check * if the call is for a plugin-related NSView/NSWindow. If it is, then we will * skip the redisplay entirely, hopefully avoiding any calls to * argb32_image_mark_RGB32 or any other slow drawing code, and thus allowing * the CFRunLoop to go idle. If the value is zero or the call is for a * non-plugin window, then we just invoke the "original" displayIfNeeded * method. * * This hack adds a tiny bit of overhead onto redrawing of the entire * application. But in the common case this consists of 1 conditional (the * check on block_plugin_redraws, which will find it to be zero) and the * invocation of the original method. Given how much work is typically done * during drawing, this seems acceptable. * * The correct fix for this is to redesign the relationship between * GTK+/GDK/glib so that a glib run loop is actually a CFRunLoop, with all * GSources represented as CFRunLoopSources, without any nesting and without * any additional thread. This is not a task to be undertaken lightly, and is * certainly substantially more work than this was. It may never be possible to * do that work in a way that could be integrated back into glib, because of * the rather specific semantics and types of GSources, but it would almost * certainly be possible to make it work for Ardour. */ static uint32_t block_plugin_redraws = 0; static const uint32_t minimum_redraw_rate = 30; /* frames per second */ static const uint32_t block_plugin_redraw_count = 15; /* number of combined plugin redraws to block, if blocking */ #if (defined __ppc__ || MAC_OS_X_VERSION_MAX_ALLOWED >= 110000) /* PowerPC versions of OS X do not support libdispatch, which we use below when swizzling objective C. But they also don't have Retina * which is the underlying reason for this code. So just skip it on those CPUs. * * Also this is probably not relevant anymore on M1/BigSur, let's see */ static void add_plugin_view (id view) {} static void remove_plugin_view (id view) {} #else static IMP original_nsview_drawIfNeeded; static std::vector plugin_views; static void add_plugin_view (id view) { if (plugin_views.empty()) { AUPluginUI::start_cf_timer (); } plugin_views.push_back (view); } static void remove_plugin_view (id view) { std::vector::iterator x = find (plugin_views.begin(), plugin_views.end(), view); if (x != plugin_views.end()) { plugin_views.erase (x); } if (plugin_views.empty()) { AUPluginUI::stop_cf_timer (); } } static void interposed_drawIfNeeded (id receiver, SEL selector, NSRect rect) { if (block_plugin_redraws && (find (plugin_views.begin(), plugin_views.end(), receiver) != plugin_views.end())) { block_plugin_redraws--; #ifdef AU_DEBUG_DRAW std::cout << "Plugin redraw blocked\n"; #endif /* YOU ... SHALL .... NOT ... DRAW!!!! */ return; } (void) ((int (*)(id,SEL,NSRect)) original_nsview_drawIfNeeded) (receiver, selector, rect); } @implementation NSView (Tracking) + (void) load { static dispatch_once_t once_token; /* this swizzles NSView::displayIfNeeded and replaces it with * interposed_drawIfNeeded(), which allows us to interpose and block * the redrawing of plugin UIs when their redrawing behaviour * is interfering with event loop behaviour. */ dispatch_once (&once_token, ^{ Method target = class_getInstanceMethod ([NSView class], @selector(displayIfNeeded)); original_nsview_drawIfNeeded = method_setImplementation (target, (IMP) interposed_drawIfNeeded); }); } @end #endif /* __ppc__ */ /* END OF THE PLUGIN REDRAW HACK */ @implementation NotificationObject - (NotificationObject*) initWithPluginUI: (AUPluginUI*) apluginui andCocoaParent: (NSWindow*) cp andTopLevelParent: (NSWindow*) tlp { self = [ super init ]; if (self) { plugin_ui = apluginui; top_level_parent = tlp; if (cp) { cocoa_parent = cp; [[NSNotificationCenter defaultCenter] addObserver:self selector:@selector(cocoaParentActivationHandler:) name:NSWindowDidBecomeMainNotification object:NULL]; [[NSNotificationCenter defaultCenter] addObserver:self selector:@selector(cocoaParentBecameKeyHandler:) name:NSWindowDidBecomeKeyNotification object:NULL]; } } return self; } - (void)cocoaParentActivationHandler:(NSNotification *)notification { NSWindow* notification_window = (NSWindow *)[notification object]; if (top_level_parent == notification_window || cocoa_parent == notification_window) { if ([notification_window isMainWindow]) { plugin_ui->activate(); } else { plugin_ui->deactivate(); } } } - (void)cocoaParentBecameKeyHandler:(NSNotification *)notification { NSWindow* notification_window = (NSWindow *)[notification object]; if (top_level_parent == notification_window || cocoa_parent == notification_window) { if ([notification_window isKeyWindow]) { plugin_ui->activate(); } else { plugin_ui->deactivate(); } } } - (void)auViewResized:(NSNotification *)notification { (void) notification; // stop complaints about unused argument plugin_ui->cocoa_view_resized(); } @end @implementation LiveResizeNotificationObject - (LiveResizeNotificationObject*) initWithPluginUI: (AUPluginUI*) apluginui { self = [ super init ]; if (self) { plugin_ui = apluginui; } return self; } - (void)windowWillStartLiveResizeHandler:(NSNotification*)notification { plugin_ui->start_live_resize (); } - (void)windowWillEndLiveResizeHandler:(NSNotification*)notification { plugin_ui->end_live_resize (); } @end AUPluginUI::AUPluginUI (std::shared_ptr pib) : PlugUIBase (pib) , automation_mode_label (_("Automation")) , preset_label (_("Presets")) , resizable (false) , req_width (0) , req_height (0) , alloc_width (0) , alloc_height (0) , cocoa_window (0) , au_view (0) , in_live_resize (false) , plugin_requested_resize (0) , cocoa_parent (0) , _notify (0) , _resize_notify (0) { if (automation_mode_strings.empty()) { automation_mode_strings = I18N (_automation_mode_strings); } set_popdown_strings (automation_mode_selector, automation_mode_strings); automation_mode_selector.set_active_text (automation_mode_strings.front()); if ((au = std::dynamic_pointer_cast (pib->plugin())) == 0) { error << _("unknown type of editor-supplying plugin (note: no AudioUnit support in this version of ardour)") << endmsg; throw failed_constructor (); } /* stuff some stuff into the top of the window */ top_box.set_homogeneous (false); top_box.set_spacing (6); top_box.set_border_width (6); add_common_widgets (&top_box); set_spacing (0); pack_start (top_box, false, false); pack_start (low_box, true, true); top_box.show_all (); top_box.show (); low_box.show (); cocoa_parent = 0; cocoa_window = 0; #ifdef WITH_CARBON _activating_from_app = false; _notify = 0; au_view = 0; editView = 0; carbon_window = 0; #endif /* prefer cocoa, fall back to cocoa, but use carbon if its there */ if (test_cocoa_view_support()) { create_cocoa_view (); #ifdef WITH_CARBON } else if (test_carbon_view_support()) { create_carbon_view (); #endif } else { create_cocoa_view (); } low_box.add_events (Gdk::VISIBILITY_NOTIFY_MASK | Gdk::EXPOSURE_MASK); low_box.signal_realize().connect (mem_fun (this, &AUPluginUI::lower_box_realized)); low_box.signal_visibility_notify_event ().connect (mem_fun (this, &AUPluginUI::lower_box_visibility_notify)); if (au_view) { low_box.signal_size_request ().connect (mem_fun (this, &AUPluginUI::lower_box_size_request)); low_box.signal_size_allocate ().connect (mem_fun (this, &AUPluginUI::lower_box_size_allocate)); low_box.signal_map ().connect (mem_fun (this, &AUPluginUI::lower_box_map)); low_box.signal_unmap ().connect (mem_fun (this, &AUPluginUI::lower_box_unmap)); } } AUPluginUI::~AUPluginUI () { if (_notify) { [[NSNotificationCenter defaultCenter] removeObserver:_notify]; } if (_resize_notify) { [[NSNotificationCenter defaultCenter] removeObserver:_resize_notify]; } NSWindow* win = get_nswindow(); if (au_view) { remove_plugin_view ([[win contentView] superview]); } #ifdef WITH_CARBON if (cocoa_parent) { [win removeChildWindow:cocoa_parent]; } if (carbon_window) { /* not parented, just overlaid on top of our window */ DisposeWindow (carbon_window); } #endif if (editView) { AudioComponentInstanceDispose (editView); } if (au_view) { /* remove whatever we packed into low_box so that GTK doesn't mess with it. */ [au_view removeFromSuperview]; } } bool AUPluginUI::test_carbon_view_support () { #ifdef WITH_CARBON bool ret = false; carbon_descriptor.componentType = kAudioUnitCarbonViewComponentType; carbon_descriptor.componentSubType = 'gnrc'; carbon_descriptor.componentManufacturer = 'appl'; carbon_descriptor.componentFlags = 0; carbon_descriptor.componentFlagsMask = 0; OSStatus err; // ask the AU for its first editor component UInt32 propertySize; err = AudioUnitGetPropertyInfo(*au->get_au(), kAudioUnitProperty_GetUIComponentList, kAudioUnitScope_Global, 0, &propertySize, NULL); if (!err) { int nEditors = propertySize / sizeof(ComponentDescription); ComponentDescription *editors = new ComponentDescription[nEditors]; err = AudioUnitGetProperty(*au->get_au(), kAudioUnitProperty_GetUIComponentList, kAudioUnitScope_Global, 0, editors, &propertySize); if (!err) { // just pick the first one for now carbon_descriptor = editors[0]; ret = true; } delete[] editors; } return ret; #else return false; #endif } bool AUPluginUI::test_cocoa_view_support () { UInt32 dataSize = 0; Boolean isWritable = 0; OSStatus err = AudioUnitGetPropertyInfo(*au->get_au(), kAudioUnitProperty_CocoaUI, kAudioUnitScope_Global, 0, &dataSize, &isWritable); return dataSize > 0 && err == noErr; } bool AUPluginUI::plugin_class_valid (Class pluginClass) { if([pluginClass conformsToProtocol: @protocol(AUCocoaUIBase)]) { if([pluginClass instancesRespondToSelector: @selector(interfaceVersion)] && [pluginClass instancesRespondToSelector: @selector(uiViewForAudioUnit:withSize:)]) { return true; } } return false; } int AUPluginUI::create_cocoa_view () { bool wasAbleToLoadCustomView = false; AudioUnitCocoaViewInfo* cocoaViewInfo = NULL; UInt32 numberOfClasses = 0; UInt32 dataSize; Boolean isWritable; NSString* factoryClassName = 0; NSURL* CocoaViewBundlePath = NULL; OSStatus result = AudioUnitGetPropertyInfo (*au->get_au(), kAudioUnitProperty_CocoaUI, kAudioUnitScope_Global, 0, &dataSize, &isWritable ); numberOfClasses = (dataSize - sizeof(CFURLRef)) / sizeof(CFStringRef); // Does view have custom Cocoa UI? if ((result == noErr) && (numberOfClasses > 0) ) { DEBUG_TRACE(DEBUG::AudioUnitGUI, string_compose ( "based on %1, there are %2 cocoa UI classes\n", dataSize, numberOfClasses)); cocoaViewInfo = (AudioUnitCocoaViewInfo *)malloc(dataSize); if(AudioUnitGetProperty(*au->get_au(), kAudioUnitProperty_CocoaUI, kAudioUnitScope_Global, 0, cocoaViewInfo, &dataSize) == noErr) { CocoaViewBundlePath = (NSURL *)cocoaViewInfo->mCocoaAUViewBundleLocation; // we only take the first view in this example. factoryClassName = (NSString *)cocoaViewInfo->mCocoaAUViewClass[0]; DEBUG_TRACE (DEBUG::AudioUnitGUI, string_compose ("the factory name is %1 bundle is %2\n", [factoryClassName UTF8String], CocoaViewBundlePath)); } else { DEBUG_TRACE (DEBUG::AudioUnitGUI, string_compose ("No cocoaUI property cocoaViewInfo = %1\n", cocoaViewInfo)); if (cocoaViewInfo != NULL) { free (cocoaViewInfo); cocoaViewInfo = NULL; } } } // [A] Show custom UI if view has it if (CocoaViewBundlePath && factoryClassName) { NSBundle *viewBundle = [NSBundle bundleWithPath:[CocoaViewBundlePath path]]; DEBUG_TRACE (DEBUG::AudioUnitGUI, string_compose ("tried to create bundle, result = %1\n", viewBundle)); if (viewBundle == NULL) { error << _("AUPluginUI: error loading AU view's bundle") << endmsg; return -1; } else { Class factoryClass = [viewBundle classNamed:factoryClassName]; DEBUG_TRACE (DEBUG::AudioUnitGUI, string_compose ("tried to create factory class, result = %1\n", factoryClass)); if (!factoryClass) { error << _("AUPluginUI: error getting AU view's factory class from bundle") << endmsg; return -1; } // make sure 'factoryClass' implements the AUCocoaUIBase protocol if (!plugin_class_valid (factoryClass)) { error << _("AUPluginUI: U view's factory class does not properly implement the AUCocoaUIBase protocol") << endmsg; return -1; } // make a factory id factory = [[[factoryClass alloc] init] autorelease]; if (factory == NULL) { error << _("AUPluginUI: Could not create an instance of the AU view factory") << endmsg; return -1; } DEBUG_TRACE (DEBUG::AudioUnitGUI, "got a factory instance\n"); // make a view au_view = [factory uiViewForAudioUnit:*au->get_au() withSize:NSZeroSize]; DEBUG_TRACE (DEBUG::AudioUnitGUI, string_compose ("view created @ %1\n", au_view)); // cleanup [CocoaViewBundlePath release]; if (cocoaViewInfo) { UInt32 i; for (i = 0; i < numberOfClasses; i++) CFRelease(cocoaViewInfo->mCocoaAUViewClass[i]); free (cocoaViewInfo); } wasAbleToLoadCustomView = true; } } if (!wasAbleToLoadCustomView) { // load generic Cocoa view DEBUG_TRACE (DEBUG::AudioUnitGUI, string_compose ("Loading generic view using %1 -> %2\n", au, au->get_au())); au_view = [[AUGenericView alloc] initWithAudioUnit:*au->get_au()]; DEBUG_TRACE (DEBUG::AudioUnitGUI, string_compose ("view created @ %1\n", au_view)); [(AUGenericView *)au_view setShowsExpertParameters:1]; } // Get the initial size of the new AU View's frame NSRect frame = [au_view frame]; if (frame.size.width > 1 && frame.size.height > 1) { req_width = frame.size.width; req_height = frame.size.height; low_box.queue_resize (); } else { req_width = 0; req_height = 0; } #ifdef AU_DEBUG_SIZE std::cout << "NSView initial size: " << req_width << " x " << req_height << "\n"; #endif resizable = [au_view autoresizingMask]; return 0; } void AUPluginUI::update_view_size () { last_au_frame = [au_view frame]; } bool AUPluginUI::timer_callback () { block_plugin_redraws = 0; #ifdef AU_DEBUG_DRAW std::cerr << "Resume redraws after idle\n"; #endif return false; } void au_cf_timer_callback (CFRunLoopTimerRef timer, void* info) { reinterpret_cast (info)->cf_timer_callback (); } void AUPluginUI::cf_timer_callback () { int64_t now = PBD::get_microseconds (); if (!last_timer || block_plugin_redraws) { last_timer = now; return; } const int64_t usecs_slop = (1400000 / minimum_redraw_rate); // 140% #ifdef AU_DEBUG_DRAW std::cerr << "Timer elapsed : " << now - last_timer << std::endl; #endif if ((now - last_timer) > (usecs_slop + (1000000/minimum_redraw_rate))) { block_plugin_redraws = block_plugin_redraw_count; timer_connection.disconnect (); timer_connection = Glib::signal_timeout().connect (&AUPluginUI::timer_callback, 40); #ifdef AU_DEBUG_DRAW std::cerr << "Timer too slow, block plugin redraws\n"; #endif } last_timer = now; } void AUPluginUI::start_cf_timer () { if (!timer_needed) { return; } CFTimeInterval interval = 1.0 / (float) minimum_redraw_rate; cf_timer = CFRunLoopTimerCreate (kCFAllocatorDefault, CFAbsoluteTimeGetCurrent() + interval, interval, 0, 0, au_cf_timer_callback, 0); CFRunLoopAddTimer (CFRunLoopGetCurrent(), cf_timer, kCFRunLoopCommonModes); timer_needed = false; } void AUPluginUI::stop_cf_timer () { if (timer_needed) { return; } CFRunLoopRemoveTimer (CFRunLoopGetCurrent(), cf_timer, kCFRunLoopCommonModes); timer_needed = true; last_timer = 0; } void AUPluginUI::cocoa_view_resized () { /* we can get here for two reasons: * * 1) the plugin window was resized by the user, a new size was * allocated to the window, ::update_view_size() was called, and we * explicitly/manually resized the AU NSView. * * 2) the plugin decided to resize itself (probably in response to user * action, but not in response to an actual window resize) * * We only want to proceed with a window resizing in the second case. */ if (in_live_resize) { /* ::update_view_size() will be called at the right times and * will update the view size. We don't need to anything while a * live resize in underway. */ return; } if (plugin_requested_resize) { /* we tried to change the plugin frame from inside this method * (to adjust the origin), which changes the frame of the AU * NSView, resulting in a reentrant call to the FrameDidChange * handler (this method). Ignore this reentrant call. */ #ifdef AU_DEBUG_SIZE std::cout << plugin->name() << " re-entrant call to cocoa_view_resized, ignored\n"; #endif return; } plugin_requested_resize = 1; ProcessorWindowProxy* wp = _pi ? _pi->window_proxy() : NULL; if (wp) { /* Once a plugin has requested a resize of its own window, do * NOT save the window. The user may save state with the plugin * editor expanded to show "extra detail" - the plugin will not * refill this space when the editor is first * instantiated. Leaving the window in the "too big" state * cannot be recovered from. * * The window will be sized to fit the plugin's own request. Done. */ wp->set_state_mask (WindowProxy::Position); } NSRect new_frame = [au_view frame]; #ifdef AU_DEBUG_SIZE std::cout << plugin->name() << " resized to " << new_frame.size.width << " x " << new_frame.size.height << "\n"; #endif /* from here on, we know that we've been called because the plugin * decided to change the NSView frame itself. */ /* step one: compute the change in the frame size. */ float dy = new_frame.size.height - last_au_frame.size.height; float dx = new_frame.size.width - last_au_frame.size.width; /* If the nsview initially reported its size as zero, the lower-box may * still have a width (due to the plugin-toolbar above), and 1px height. * The window only needs to grow relative to that. * This is usually the case with Rosetta bridges AU Plugins. * * Note: this may also be relevant for tiny AU plugins where the initial * width is smaller than the top_box toolbar. This rare case is left to * be solved at another time. */ if (last_au_frame.size.height == 0 && last_au_frame.size.width == 0) { dy = new_frame.size.height - alloc_height - 1; dx = new_frame.size.width - alloc_width; } NSWindow* window = get_nswindow (); NSRect windowFrame= [window frame]; /* we want the top edge of the window to remain in the same place, * but the Cocoa/Quartz origin is at the lower left. So, when we make * the window larger, we will move it down, which means shifting the * origin toward (x,0). This will leave the top edge in the same place. */ #ifdef AU_DEBUG_SIZE printf ("WINDOW %f x %f + %f %f\n", windowFrame.size.width, windowFrame.size.height, windowFrame.origin.x, windowFrame.origin.y); printf ("Lower Box Allocation %d x %d\n", alloc_width, alloc_height); printf ("DX %.1f DY %.1f\n", dx, dy); #endif windowFrame.origin.y -= dy; windowFrame.origin.x -= dx; windowFrame.size.height += dy; windowFrame.size.width += dx; #ifdef AU_DEBUG_SIZE printf ("New WINDOW %f x %f + %f %f\n", windowFrame.size.width, windowFrame.size.height, windowFrame.origin.x, windowFrame.origin.y); #endif NSUInteger old_auto_resize = [au_view autoresizingMask]; /* Some stupid AU Views change the origin of the original AU View when * they are resized (I'm looking at you AUSampler). If the origin has * been moved, move it back. */ if (last_au_frame.origin.x != new_frame.origin.x || last_au_frame.origin.y != new_frame.origin.y) { new_frame.origin = last_au_frame.origin; [au_view setFrame:new_frame]; NSArray* subviews = [au_view subviews]; for (unsigned long i = 0; i < [subviews count]; ++i) { NSView* subview = [subviews objectAtIndex:i]; [subview setFrame:NSMakeRect (0, 0, new_frame.size.width, new_frame.size.height)]; break; /* only resize first subview */ } /* also be sure to redraw the topbox because this can also go wrong. */ top_box.queue_draw (); } /* We resize the window using Cocoa. We can't use GTK mechanisms * because of this: * * http://www.lists.apple.com/archives/coreaudio-api/2005/Aug/msg00245.html * * "The host needs to be aware that changing the size of the window in * response to the NSViewFrameDidChangeNotification can cause the view * size to change depending on the autoresizing mask of the view. The * host may need to cache the autoresizing mask of the view, set it to * NSViewNotSizable, resize the window, and then reset the autoresizing * mask of the view once the window has been sized." * */ [au_view setAutoresizingMask:NSViewNotSizable]; [window setFrame:windowFrame display:1]; [au_view setAutoresizingMask:old_auto_resize]; /* keep a copy of the size of the AU NSView. We didn't set it - the plugin did */ last_au_frame = new_frame; req_width = new_frame.size.width; req_height = new_frame.size.height; #ifdef AU_DEBUG_SIZE std::cout << "NSView resized: " << req_width << " x " << req_height << "\n"; #endif low_box.queue_resize (); plugin_requested_resize = 0; } int AUPluginUI::create_carbon_view () { #ifdef WITH_CARBON OSStatus err; ControlRef root_control; Component editComponent = FindNextComponent(NULL, &carbon_descriptor); OpenAComponent(editComponent, &editView); if (!editView) { error << _("AU Carbon view: cannot open AU Component") << endmsg; return -1; } Rect r = { 100, 100, 100, 100 }; WindowAttributes attr = WindowAttributes (kWindowStandardHandlerAttribute | kWindowCompositingAttribute| kWindowNoShadowAttribute| kWindowNoTitleBarAttribute); if ((err = CreateNewWindow(kUtilityWindowClass, attr, &r, &carbon_window)) != noErr) { error << string_compose (_("AUPluginUI: cannot create carbon window (err: %1)"), err) << endmsg; AudioComponentInstanceDispose (editView); return -1; } if ((err = GetRootControl(carbon_window, &root_control)) != noErr) { error << string_compose (_("AUPlugin: cannot get root control of carbon window (err: %1)"), err) << endmsg; DisposeWindow (carbon_window); AudioComponentInstanceDispose (editView); return -1; } ControlRef viewPane; Float32Point location = { 0.0, 0.0 }; Float32Point size = { 0.0, 0.0 } ; if ((err = AudioUnitCarbonViewCreate (editView, *au->get_au(), carbon_window, root_control, &location, &size, &viewPane)) != noErr) { error << string_compose (_("AUPluginUI: cannot create carbon plugin view (err: %1)"), err) << endmsg; DisposeWindow (carbon_window); AudioComponentInstanceDispose (editView); return -1; } // resize window Rect bounds; GetControlBounds(viewPane, &bounds); size.x = bounds.right-bounds.left; size.y = bounds.bottom-bounds.top; req_width = (int) (size.x + 0.5); req_height = (int) (size.y + 0.5); SizeWindow (carbon_window, req_width, req_height, true); low_box.set_size_request (req_width, req_height); return 0; #else error << _("AU Carbon GUI is not supported.") << endmsg; return -1; #endif } NSWindow* AUPluginUI::get_nswindow () { Gtk::Container* toplevel = get_toplevel(); if (!toplevel || !toplevel->is_toplevel()) { error << _("AUPluginUI: no top level window!") << endmsg; return 0; } NSWindow* true_parent = gdk_quartz_window_get_nswindow (toplevel->get_window()->gobj()); if (!true_parent) { error << _("AUPluginUI: no top level window!") << endmsg; return 0; } return true_parent; } void AUPluginUI::activate () { #ifdef WITH_CARBON ActivateWindow (carbon_window, TRUE); #endif } void AUPluginUI::deactivate () { #ifdef WITH_CARBON ActivateWindow (carbon_window, FALSE); #endif } int AUPluginUI::parent_carbon_window () { #ifdef WITH_CARBON NSWindow* win = get_nswindow (); Rect windowStructureBoundsRect; if (!win) { return -1; } /* figure out where the cocoa parent window is in carbon-coordinate space, which differs from both cocoa-coordinate space and GTK-coordinate space */ GetWindowBounds((WindowRef) [win windowRef], kWindowStructureRgn, &windowStructureBoundsRect); /* compute how tall the title bar is, because we have to offset the position of the carbon window by that much. */ NSRect content_frame = [NSWindow contentRectForFrameRect:[win frame] styleMask:[win styleMask]]; NSRect wm_frame = [NSWindow frameRectForContentRect:content_frame styleMask:[win styleMask]]; int titlebar_height = wm_frame.size.height - content_frame.size.height; int packing_extra = 6; // this is the total vertical packing in our top level window /* move into position, based on parent window position */ MoveWindow (carbon_window, windowStructureBoundsRect.left, windowStructureBoundsRect.top + titlebar_height + top_box.get_height() + packing_extra, false); ShowWindow (carbon_window); // create the cocoa window for the carbon one and make it visible cocoa_parent = [[NSWindow alloc] initWithWindowRef: carbon_window]; SetWindowActivationScope (carbon_window, kWindowActivationScopeNone); _notify = [ [NotificationObject alloc] initWithPluginUI:this andCocoaParent:cocoa_parent andTopLevelParent:win ]; [win addChildWindow:cocoa_parent ordered:NSWindowAbove]; [win setAutodisplay:1]; // turn of GTK stuff for this window return 0; #else return -1; #endif } int AUPluginUI::parent_cocoa_window () { NSWindow* win = get_nswindow (); if (!win) { return -1; } //[win setAutodisplay:1]; // turn off GTK stuff for this window NSView* view = gdk_quartz_window_get_nsview (low_box.get_window()->gobj()); [view addSubview:au_view]; /* despite the fact that the documentation says that [NSWindow contentView] is the highest "accessible" NSView in an NSWindow, when the redraw cycle is executed, displayIfNeeded is actually executed on the parent of the contentView. To provide a marginal speedup when checking if a given redraw is for a plugin, use this "hidden" NSView to identify the plugin, so that we do not have to call [superview] every time in interposed_drawIfNeeded(). */ add_plugin_view ([[win contentView] superview]); /* this moves the AU NSView down and over to provide a left-hand margin * and to clear the Ardour "task bar" (with plugin preset mgmt buttons, * keyboard focus control, bypass etc). */ gint xx, yy; gtk_widget_translate_coordinates( GTK_WIDGET(low_box.gobj()), GTK_WIDGET(low_box.get_parent()->gobj()), 0, 0, &xx, &yy); [au_view setFrame:NSMakeRect(xx, yy, req_width, req_height)]; NSArray* subviews = [au_view subviews]; for (unsigned long i = 0; i < [subviews count]; ++i) { NSView* subview = [subviews objectAtIndex:i]; [subview setFrame:NSMakeRect (0, 0, req_width, req_height)]; break; /* only resize first subview */ } last_au_frame = [au_view frame]; // watch for size changes of the view _notify = [ [NotificationObject alloc] initWithPluginUI:this andCocoaParent:NULL andTopLevelParent:win ]; [[NSNotificationCenter defaultCenter] addObserver:_notify selector:@selector(auViewResized:) name:NSViewFrameDidChangeNotification object:au_view]; // catch notifications that live resizing is about to start #ifdef HAVE_COCOA_LIVE_RESIZING _resize_notify = [ [ LiveResizeNotificationObject alloc] initWithPluginUI:this ]; [[NSNotificationCenter defaultCenter] addObserver:_resize_notify selector:@selector(windowWillStartLiveResizeHandler:) name:NSWindowWillStartLiveResizeNotification object:win]; [[NSNotificationCenter defaultCenter] addObserver:_resize_notify selector:@selector(windowWillEndLiveResizeHandler:) name:NSWindowDidEndLiveResizeNotification object:win]; #else /* No way before 10.6 to identify the start of a live resize (drag * resize) without subclassing NSView and overriding two of its * methods. Instead of that, we make the window non-resizable, thus * ending confusion about whether or not resizes are plugin or user * driven (they are always plugin-driven). */ Gtk::Container* toplevel = get_toplevel(); Requisition req; resizable = false; if (toplevel && toplevel->is_toplevel()) { req = toplevel->size_request (); toplevel->set_size_request (req.width, req.height); dynamic_cast(toplevel)->set_resizable (false); } #endif return 0; } void AUPluginUI::grab_focus() { if (au_view) { [au_view becomeFirstResponder]; } } void AUPluginUI::forward_key_event (GdkEventKey* ev) { NSEvent* nsevent = gdk_quartz_event_get_nsevent ((GdkEvent*)ev); if (au_view && nsevent) { /* filter on nsevent type here because GDK massages FlagsChanged messages into GDK_KEY_{PRESS,RELEASE} but Cocoa won't handle a FlagsChanged message as a keyDown or keyUp */ if ([nsevent type] == NSKeyDown) { [[[au_view window] firstResponder] keyDown:nsevent]; } else if ([nsevent type] == NSKeyUp) { [[[au_view window] firstResponder] keyUp:nsevent]; } else if ([nsevent type] == NSFlagsChanged) { [[[au_view window] firstResponder] flagsChanged:nsevent]; } } } void AUPluginUI::on_realize () { VBox::on_realize (); /* our windows should not have that resize indicator */ NSWindow* win = get_nswindow (); if (win) { [win setShowsResizeIndicator:0]; } } void AUPluginUI::lower_box_realized () { if (au_view) { parent_cocoa_window (); } else if (carbon_window) { parent_carbon_window (); } } bool AUPluginUI::lower_box_visibility_notify (GdkEventVisibility* ev) { #ifdef WITH_CARBON if (carbon_window && ev->state != GDK_VISIBILITY_UNOBSCURED) { ShowWindow (carbon_window); ActivateWindow (carbon_window, TRUE); return true; } #endif return false; } void AUPluginUI::lower_box_map () { [au_view setHidden:0]; update_view_size (); #ifdef AU_DEBUG_SIZE std::cout << "AUPluginUI::lower_box_map\n"; #endif } void AUPluginUI::lower_box_unmap () { [au_view setHidden:1]; #ifdef AU_DEBUG_SIZE std::cout << "AUPluginUI::lower_box_unmap\n"; #endif } void AUPluginUI::lower_box_size_request (GtkRequisition* requisition) { #ifdef AU_DEBUG_SIZE std::cout << "AUPluginUI::lower_box_size_request: " << req_width << " x " << req_height << "\n"; #endif requisition->width = req_width; requisition->height = req_height; } void AUPluginUI::lower_box_size_allocate (Gtk::Allocation& allocation) { #ifdef AU_DEBUG_SIZE std::cout << "AUPluginUI::lower_box_size_alloc: " << allocation.get_width() << " x " << allocation.get_height () << "\n"; #endif alloc_width = allocation.get_width(); alloc_height = allocation.get_height(); update_view_size (); } void AUPluginUI::on_window_hide () { #ifdef WITH_CARBON if (carbon_window) { HideWindow (carbon_window); ActivateWindow (carbon_window, FALSE); } #endif hide_all (); #if 0 NSArray* wins = [NSApp windows]; for (uint32_t i = 0; i < [wins count]; i++) { id win = [wins objectAtIndex:i]; } #endif #ifdef AU_DEBUG_SIZE std::cout << "AUPluginUI::on_window_hide\n"; #endif } bool AUPluginUI::on_window_show (const string& /*title*/) { /* this is idempotent so just call it every time we show the window */ gtk_widget_realize (GTK_WIDGET(low_box.gobj())); show_all (); #ifdef WITH_CARBON if (carbon_window) { ShowWindow (carbon_window); ActivateWindow (carbon_window, TRUE); } #endif #ifdef AU_DEBUG_SIZE std::cout << "AUPluginUI::on_window_show\n"; #endif return true; } bool AUPluginUI::start_updating (GdkEventAny*) { return false; } bool AUPluginUI::stop_updating (GdkEventAny*) { return false; } PlugUIBase* create_au_gui (std::shared_ptr pib, VBox** box) { AUPluginUI* aup = new AUPluginUI (pib); (*box) = aup; return aup; } void AUPluginUI::start_live_resize () { in_live_resize = true; } void AUPluginUI::end_live_resize () { in_live_resize = false; }