#define Cursor OSXCursor #define Point OSXPoint #define Rect OSXRect #import #import #import #undef Cursor #undef Point #undef Rect #include #include #include #include #include #include #include #include #include #include #include "devdraw.h" #include "bigarrow.h" #include "glendapng.h" AUTOFRAMEWORK(Cocoa) AUTOFRAMEWORK(Metal) AUTOFRAMEWORK(QuartzCore) AUTOFRAMEWORK(CoreFoundation) #define LOG if(0)NSLog // TODO: Maintain list of views for dock menu. static void setprocname(const char*); static uint keycvt(uint); static uint msec(void); @class DrawView; @class DrawLayer; @interface AppDelegate : NSObject @end static AppDelegate *myApp = NULL; void gfx_main(void) { if(client0) setprocname(argv0); @autoreleasepool{ [NSApplication sharedApplication]; [NSApp setActivationPolicy:NSApplicationActivationPolicyRegular]; myApp = [AppDelegate new]; [NSApp setDelegate:myApp]; [NSApp run]; } } void rpc_shutdown(void) { [NSApp terminate:myApp]; } @implementation AppDelegate - (void)applicationDidFinishLaunching:(id)arg { NSMenu *m, *sm; NSData *d; NSImage *i; LOG(@"applicationDidFinishLaunching"); sm = [NSMenu new]; [sm addItemWithTitle:@"Toggle Full Screen" action:@selector(toggleFullScreen:) keyEquivalent:@"f"]; [sm addItemWithTitle:@"Hide" action:@selector(hide:) keyEquivalent:@"h"]; [sm addItemWithTitle:@"Quit" action:@selector(terminate:) keyEquivalent:@"q"]; m = [NSMenu new]; [m addItemWithTitle:@"DEVDRAW" action:NULL keyEquivalent:@""]; [m setSubmenu:sm forItem:[m itemWithTitle:@"DEVDRAW"]]; [NSApp setMainMenu:m]; d = [[NSData alloc] initWithBytes:glenda_png length:(sizeof glenda_png)]; i = [[NSImage alloc] initWithData:d]; [NSApp setApplicationIconImage:i]; [[NSApp dockTile] display]; gfx_started(); } - (BOOL)applicationShouldTerminateAfterLastWindowClosed:(NSApplication *)theApplication { return client0 != nil; } @end @interface DrawLayer : CAMetalLayer @property (nonatomic, retain) id cmd; @property (nonatomic, retain) id texture; @end @implementation DrawLayer - (void)display { LOG(@"display"); LOG(@"display query drawable"); @autoreleasepool{ id drawable = [self nextDrawable]; if(!drawable){ LOG(@"display couldn't get drawable"); [self setNeedsDisplay]; return; } LOG(@"display got drawable"); id cbuf = [self.cmd commandBuffer]; id blit = [cbuf blitCommandEncoder]; [blit copyFromTexture:self.texture sourceSlice:0 sourceLevel:0 sourceOrigin:MTLOriginMake(0, 0, 0) sourceSize:MTLSizeMake(self.texture.width, self.texture.height, self.texture.depth) toTexture:drawable.texture destinationSlice:0 destinationLevel:0 destinationOrigin:MTLOriginMake(0, 0, 0)]; [blit endEncoding]; [cbuf presentDrawable:drawable]; drawable = nil; [cbuf addCompletedHandler:^(id cmdBuff){ if(cmdBuff.error){ NSLog(@"command buffer finished with error: %@", cmdBuff.error.localizedDescription); }else LOG(@"command buffer finishes present drawable"); }]; [cbuf commit]; } LOG(@"display commit"); } @end @interface DrawView : NSView @property (nonatomic, assign) Client *client; @property (nonatomic, retain) DrawLayer *dlayer; @property (nonatomic, retain) NSWindow *win; @property (nonatomic, retain) NSCursor *currentCursor; @property (nonatomic, assign) Memimage *img; - (id)attach:(Client*)client winsize:(char*)winsize label:(char*)label; - (void)topwin; - (void)setlabel:(char*)label; - (void)setcursor:(Cursor*)c cursor2:(Cursor2*)c2; - (void)setmouse:(Point)p; - (void)clearInput; - (void)getmouse:(NSEvent*)e; - (void)sendmouse:(NSUInteger)b; - (void)resetLastInputRect; - (void)enlargeLastInputRect:(NSRect)r; @end @implementation DrawView { NSMutableString *_tmpText; NSRange _markedRange; NSRange _selectedRange; NSRect _lastInputRect; // The view is flipped, this is not. BOOL _tapping; NSUInteger _tapFingers; NSUInteger _tapTime; } - (id)init { LOG(@"View init"); self = [super init]; [self setAllowedTouchTypes:NSTouchTypeMaskDirect|NSTouchTypeMaskIndirect]; _tmpText = [[NSMutableString alloc] initWithCapacity:2]; _markedRange = NSMakeRange(NSNotFound, 0); _selectedRange = NSMakeRange(0, 0); return self; } - (CALayer*)makeBackingLayer { return [DrawLayer layer]; } - (BOOL)wantsUpdateLayer { return YES; } - (BOOL)isOpaque { return YES; } - (BOOL)isFlipped { return YES; } - (BOOL)acceptsFirstResponder { return YES; } // rpc_attach allocates a new screen window with the given label and size // and attaches it to client c (by setting c->view). Memimage* rpc_attach(Client *c, char *label, char *winsize) { LOG(@"attachscreen(%s, %s)", label, winsize); dispatch_sync(dispatch_get_main_queue(), ^(void) { @autoreleasepool { DrawView *view = [[DrawView new] attach:c winsize:winsize label:label]; [view initimg]; } }); return ((__bridge DrawView*)c->view).img; } - (id)attach:(Client*)client winsize:(char*)winsize label:(char*)label { NSRect r, sr; Rectangle wr; int set; char *s; NSArray *allDevices; const NSWindowStyleMask Winstyle = NSWindowStyleMaskTitled | NSWindowStyleMaskClosable | NSWindowStyleMaskMiniaturizable | NSWindowStyleMaskResizable; s = winsize; sr = [[NSScreen mainScreen] frame]; r = [[NSScreen mainScreen] visibleFrame]; LOG(@"makewin(%s)", s); if(s == nil || *s == '\0' || parsewinsize(s, &wr, &set) < 0) { wr = Rect(0, 0, sr.size.width*2/3, sr.size.height*2/3); set = 0; } r.origin.x = wr.min.x; r.origin.y = sr.size.height-wr.max.y; /* winsize is top-left-based */ r.size.width = fmin(Dx(wr), r.size.width); r.size.height = fmin(Dy(wr), r.size.height); r = [NSWindow contentRectForFrameRect:r styleMask:Winstyle]; NSWindow *win = [[NSWindow alloc] initWithContentRect:r styleMask:Winstyle backing:NSBackingStoreBuffered defer:NO]; [win setTitle:@"devdraw"]; if(!set) [win center]; [win setCollectionBehavior:NSWindowCollectionBehaviorFullScreenPrimary]; [win setContentMinSize:NSMakeSize(64,64)]; [win setOpaque:YES]; [win setRestorable:NO]; [win setAcceptsMouseMovedEvents:YES]; client->view = CFBridgingRetain(self); self.client = client; self.win = win; self.currentCursor = nil; [win setContentView:self]; [win setDelegate:self]; [self setWantsLayer:YES]; [self setLayerContentsRedrawPolicy:NSViewLayerContentsRedrawOnSetNeedsDisplay]; id device = nil; allDevices = MTLCopyAllDevices(); for(id mtlDevice in allDevices) { if ([mtlDevice isLowPower] && ![mtlDevice isRemovable]) { device = mtlDevice; break; } } if(!device) device = MTLCreateSystemDefaultDevice(); DrawLayer *layer = (DrawLayer*)[self layer]; self.dlayer = layer; layer.device = device; layer.cmd = [device newCommandQueue]; layer.pixelFormat = MTLPixelFormatBGRA8Unorm; layer.framebufferOnly = YES; layer.opaque = YES; // We use a default transparent layer on top of the CAMetalLayer. // This seems to make fullscreen applications behave. // Specifically, without this code if you enter full screen with Cmd-F, // the screen goes black until the first mouse click. if(1) { CALayer *stub = [CALayer layer]; stub.frame = CGRectMake(0, 0, 1, 1); [stub setNeedsDisplay]; [layer addSublayer:stub]; } [NSEvent setMouseCoalescingEnabled:NO]; [self topwin]; [self setlabel:label]; [self setcursor:nil cursor2:nil]; return self; } // rpc_topwin moves the window to the top of the desktop. // Called from an RPC thread with no client lock held. void rpc_topwin(Client *c) { DrawView *view = (__bridge DrawView*)c->view; dispatch_sync(dispatch_get_main_queue(), ^(void) { [view topwin]; }); } - (void)topwin { [self.win makeKeyAndOrderFront:nil]; [NSApp activateIgnoringOtherApps:YES]; } // rpc_setlabel updates the client window's label. // If label == nil, the call is a no-op. // Called from an RPC thread with no client lock held. void rpc_setlabel(Client *client, char *label) { DrawView *view = (__bridge DrawView*)client->view; dispatch_sync(dispatch_get_main_queue(), ^(void){ [view setlabel:label]; }); } - (void)setlabel:(char*)label { LOG(@"setlabel(%s)", label); if(label == nil) return; @autoreleasepool{ NSString *s = [[NSString alloc] initWithUTF8String:label]; [self.win setTitle:s]; if(client0) [[NSApp dockTile] setBadgeLabel:s]; } } // rpc_setcursor updates the client window's cursor image. // Either c and c2 are both non-nil, or they are both nil to use the default arrow. // Called from an RPC thread with no client lock held. void rpc_setcursor(Client *client, Cursor *c, Cursor2 *c2) { DrawView *view = (__bridge DrawView*)client->view; dispatch_sync(dispatch_get_main_queue(), ^(void){ [view setcursor:c cursor2:c2]; }); } - (void)setcursor:(Cursor*)c cursor2:(Cursor2*)c2 { if(!c) { c = &bigarrow; c2 = &bigarrow2; } NSBitmapImageRep *r, *r2; NSImage *i; NSPoint p; uchar *plane[5], *plane2[5]; uint b; r = [[NSBitmapImageRep alloc] initWithBitmapDataPlanes:nil pixelsWide:16 pixelsHigh:16 bitsPerSample:1 samplesPerPixel:2 hasAlpha:YES isPlanar:YES colorSpaceName:NSDeviceWhiteColorSpace bytesPerRow:2 bitsPerPixel:0]; [r getBitmapDataPlanes:plane]; for(b=0; bset); b++){ plane[0][b] = ~c->set[b] & c->clr[b]; plane[1][b] = c->set[b] | c->clr[b]; } r2 = [[NSBitmapImageRep alloc] initWithBitmapDataPlanes:nil pixelsWide:32 pixelsHigh:32 bitsPerSample:1 samplesPerPixel:2 hasAlpha:YES isPlanar:YES colorSpaceName:NSDeviceWhiteColorSpace bytesPerRow:4 bitsPerPixel:0]; [r2 getBitmapDataPlanes:plane2]; for(b=0; bset); b++){ plane2[0][b] = ~c2->set[b] & c2->clr[b]; plane2[1][b] = c2->set[b] | c2->clr[b]; } static BOOL debug = NO; if(debug){ NSData *data = [r representationUsingType: NSBitmapImageFileTypeBMP properties: @{}]; [data writeToFile: @"/tmp/r.bmp" atomically: NO]; data = [r2 representationUsingType: NSBitmapImageFileTypeBMP properties: @{}]; [data writeToFile: @"/tmp/r2.bmp" atomically: NO]; debug = NO; } i = [[NSImage alloc] initWithSize:NSMakeSize(16, 16)]; [i addRepresentation:r2]; [i addRepresentation:r]; p = NSMakePoint(-c->offset.x, -c->offset.y); self.currentCursor = [[NSCursor alloc] initWithImage:i hotSpot:p]; [self.win invalidateCursorRectsForView:self]; } - (void)initimg { @autoreleasepool { CGFloat scale; NSSize size; MTLTextureDescriptor *textureDesc; size = [self convertSizeToBacking:[self bounds].size]; self.client->mouserect = Rect(0, 0, size.width, size.height); LOG(@"initimg %.0f %.0f", size.width, size.height); self.img = allocmemimage(self.client->mouserect, XRGB32); if(self.img == nil) panic("allocmemimage: %r"); if(self.img->data == nil) panic("img->data == nil"); textureDesc = [MTLTextureDescriptor texture2DDescriptorWithPixelFormat:MTLPixelFormatBGRA8Unorm width:size.width height:size.height mipmapped:NO]; textureDesc.allowGPUOptimizedContents = YES; textureDesc.usage = MTLTextureUsageShaderRead; textureDesc.cpuCacheMode = MTLCPUCacheModeWriteCombined; self.dlayer.texture = [self.dlayer.device newTextureWithDescriptor:textureDesc]; scale = [self.win backingScaleFactor]; [self.dlayer setDrawableSize:size]; [self.dlayer setContentsScale:scale]; // NOTE: This is not really the display DPI. // On retina, scale is 2; otherwise it is 1. // This formula gives us 220 for retina, 110 otherwise. // That's not quite right but it's close to correct. // https://en.wikipedia.org/wiki/Retina_display#Models self.client->displaydpi = scale * 110; } } // rpc_flush flushes changes to view.img's rectangle r // to the on-screen window, making them visible. // Called from an RPC thread with no client lock held. void rpc_flush(Client *client, Rectangle r) { DrawView *view = (__bridge DrawView*)client->view; dispatch_async(dispatch_get_main_queue(), ^(void){ [view flush:r]; }); } - (void)flush:(Rectangle)r { @autoreleasepool{ if(!rectclip(&r, Rect(0, 0, self.dlayer.texture.width, self.dlayer.texture.height)) || !rectclip(&r, self.img->r)) return; // self.client->drawlk protects the pixel data in self.img. // In addition to avoiding a technical data race, // the lock avoids drawing partial updates, which makes // animations like sweeping windows much less flickery. qlock(&self.client->drawlk); [self.dlayer.texture replaceRegion:MTLRegionMake2D(r.min.x, r.min.y, Dx(r), Dy(r)) mipmapLevel:0 withBytes:byteaddr(self.img, Pt(r.min.x, r.min.y)) bytesPerRow:self.img->width*sizeof(u32int)]; qunlock(&self.client->drawlk); NSRect nr = NSMakeRect(r.min.x, r.min.y, Dx(r), Dy(r)); dispatch_time_t time; LOG(@"callsetNeedsDisplayInRect(%g, %g, %g, %g)", nr.origin.x, nr.origin.y, nr.size.width, nr.size.height); nr = [self.win convertRectFromBacking:nr]; LOG(@"setNeedsDisplayInRect(%g, %g, %g, %g)", nr.origin.x, nr.origin.y, nr.size.width, nr.size.height); [self.dlayer setNeedsDisplayInRect:nr]; time = dispatch_time(DISPATCH_TIME_NOW, 16 * NSEC_PER_MSEC); dispatch_after(time, dispatch_get_main_queue(), ^(void){ [self.dlayer setNeedsDisplayInRect:nr]; }); [self enlargeLastInputRect:nr]; } } // rpc_resizeimg forces the client window to discard its current window and make a new one. // It is called when the user types Cmd-R to toggle whether retina mode is forced. // Called from an RPC thread with no client lock held. void rpc_resizeimg(Client *c) { DrawView *view = (__bridge DrawView*)c->view; dispatch_sync(dispatch_get_main_queue(), ^(void){ [view resizeimg]; }); } - (void)resizeimg { [self initimg]; gfx_replacescreenimage(self.client, self.img); [self sendmouse:0]; } - (void)windowDidResize:(NSNotification *)notification { if(![self inLiveResize] && self.img) { [self resizeimg]; } } - (void)viewDidEndLiveResize { [super viewDidEndLiveResize]; if(self.img) [self resizeimg]; } - (void)viewDidChangeBackingProperties { [super viewDidChangeBackingProperties]; if(self.img) [self resizeimg]; } // rpc_resizewindow asks for the client window to be resized to size r. // Called from an RPC thread with no client lock held. void rpc_resizewindow(Client *c, Rectangle r) { DrawView *view = (__bridge DrawView*)c->view; LOG(@"resizewindow %d %d %d %d", r.min.x, r.min.y, Dx(r), Dy(r)); dispatch_async(dispatch_get_main_queue(), ^(void){ NSSize s; s = [view convertSizeFromBacking:NSMakeSize(Dx(r), Dy(r))]; [view.win setContentSize:s]; }); } - (void)windowDidBecomeKey:(id)arg { [self sendmouse:0]; } - (void)mouseMoved:(NSEvent*)e{ [self getmouse:e];} - (void)mouseDown:(NSEvent*)e{ [self getmouse:e];} - (void)mouseDragged:(NSEvent*)e{ [self getmouse:e];} - (void)mouseUp:(NSEvent*)e{ [self getmouse:e];} - (void)otherMouseDown:(NSEvent*)e{ [self getmouse:e];} - (void)otherMouseDragged:(NSEvent*)e{ [self getmouse:e];} - (void)otherMouseUp:(NSEvent*)e{ [self getmouse:e];} - (void)rightMouseDown:(NSEvent*)e{ [self getmouse:e];} - (void)rightMouseDragged:(NSEvent*)e{ [self getmouse:e];} - (void)rightMouseUp:(NSEvent*)e{ [self getmouse:e];} - (void)scrollWheel:(NSEvent*)e { NSInteger s; s = [e scrollingDeltaY]; if(s > 0) [self sendmouse:8]; else if (s < 0) [self sendmouse:16]; } - (void)keyDown:(NSEvent*)e { LOG(@"keyDown to interpret"); [self interpretKeyEvents:[NSArray arrayWithObject:e]]; [self resetLastInputRect]; } - (void)flagsChanged:(NSEvent*)e { static NSEventModifierFlags omod; NSEventModifierFlags m; uint b; LOG(@"flagsChanged"); m = [e modifierFlags]; b = [NSEvent pressedMouseButtons]; b = (b&~6) | (b&4)>>1 | (b&2)<<1; if(b){ if(m & ~omod & NSEventModifierFlagControl) b |= 1; if(m & ~omod & NSEventModifierFlagOption) b |= 2; if(m & ~omod & NSEventModifierFlagCommand) b |= 4; [self sendmouse:b]; }else if(m & ~omod & NSEventModifierFlagOption) gfx_keystroke(self.client, Kalt); omod = m; } - (void)magnifyWithEvent:(NSEvent*)e { if(fabs([e magnification]) > 0.02) [[self window] toggleFullScreen:nil]; } - (void)touchesBeganWithEvent:(NSEvent*)e { _tapping = YES; _tapFingers = [e touchesMatchingPhase:NSTouchPhaseTouching inView:nil].count; _tapTime = msec(); } - (void)touchesMovedWithEvent:(NSEvent*)e { _tapping = NO; } - (void)touchesEndedWithEvent:(NSEvent*)e { if(_tapping && [e touchesMatchingPhase:NSTouchPhaseTouching inView:nil].count == 0 && msec() - _tapTime < 250){ switch(_tapFingers){ case 3: [self sendmouse:2]; [self sendmouse:0]; break; case 4: [self sendmouse:2]; [self sendmouse:1]; [self sendmouse:0]; break; } _tapping = NO; } } - (void)touchesCancelledWithEvent:(NSEvent*)e { _tapping = NO; } - (void)getmouse:(NSEvent *)e { NSUInteger b; NSEventModifierFlags m; b = [NSEvent pressedMouseButtons]; b = b&~6 | (b&4)>>1 | (b&2)<<1; b = mouseswap(b); if(b == 1){ m = [e modifierFlags]; if(m & NSEventModifierFlagOption){ gfx_abortcompose(self.client); b = 2; }else if(m & NSEventModifierFlagCommand) b = 4; } [self sendmouse:b]; } - (void)sendmouse:(NSUInteger)b { NSPoint p; p = [self.window convertPointToBacking: [self.window mouseLocationOutsideOfEventStream]]; p.y = Dy(self.client->mouserect) - p.y; // LOG(@"(%g, %g) <- sendmouse(%d)", p.x, p.y, (uint)b); gfx_mousetrack(self.client, p.x, p.y, b, msec()); if(b && _lastInputRect.size.width && _lastInputRect.size.height) [self resetLastInputRect]; } // rpc_setmouse moves the mouse cursor. // Called from an RPC thread with no client lock held. void rpc_setmouse(Client *c, Point p) { DrawView *view = (__bridge DrawView*)c->view; dispatch_async(dispatch_get_main_queue(), ^(void){ [view setmouse:p]; }); } - (void)setmouse:(Point)p { @autoreleasepool{ NSPoint q; LOG(@"setmouse(%d,%d)", p.x, p.y); q = [self.win convertPointFromBacking:NSMakePoint(p.x, p.y)]; LOG(@"(%g, %g) <- fromBacking", q.x, q.y); q = [self convertPoint:q toView:nil]; LOG(@"(%g, %g) <- toWindow", q.x, q.y); q = [self.win convertPointToScreen:q]; LOG(@"(%g, %g) <- toScreen", q.x, q.y); // Quartz has the origin of the "global display // coordinate space" at the top left of the primary // screen with y increasing downward, while Cocoa has // the origin at the bottom left of the primary screen // with y increasing upward. We flip the coordinate // with a negative sign and shift upward by the height // of the primary screen. q.y = NSScreen.screens[0].frame.size.height - q.y; LOG(@"(%g, %g) <- setmouse", q.x, q.y); CGWarpMouseCursorPosition(NSPointToCGPoint(q)); CGAssociateMouseAndMouseCursorPosition(true); } } - (void)resetCursorRects { [super resetCursorRects]; [self addCursorRect:self.bounds cursor:self.currentCursor]; } // conforms to protocol NSTextInputClient - (BOOL)hasMarkedText { return _markedRange.location != NSNotFound; } - (NSRange)markedRange { return _markedRange; } - (NSRange)selectedRange { return _selectedRange; } - (void)setMarkedText:(id)string selectedRange:(NSRange)sRange replacementRange:(NSRange)rRange { NSString *str; LOG(@"setMarkedText: %@ (%ld, %ld) (%ld, %ld)", string, sRange.location, sRange.length, rRange.location, rRange.length); [self clearInput]; if([string isKindOfClass:[NSAttributedString class]]) str = [string string]; else str = string; if(rRange.location == NSNotFound){ if(_markedRange.location != NSNotFound){ rRange = _markedRange; }else{ rRange = _selectedRange; } } if(str.length == 0){ [_tmpText deleteCharactersInRange:rRange]; [self unmarkText]; }else{ _markedRange = NSMakeRange(rRange.location, str.length); [_tmpText replaceCharactersInRange:rRange withString:str]; } _selectedRange.location = rRange.location + sRange.location; _selectedRange.length = sRange.length; if(_tmpText.length){ uint i; LOG(@"text length %ld", _tmpText.length); for(i = 0; i <= _tmpText.length; ++i){ if(i == _markedRange.location) gfx_keystroke(self.client, '['); if(_selectedRange.length){ if(i == _selectedRange.location) gfx_keystroke(self.client, '{'); if(i == NSMaxRange(_selectedRange)) gfx_keystroke(self.client, '}'); } if(i == NSMaxRange(_markedRange)) gfx_keystroke(self.client, ']'); if(i < _tmpText.length) gfx_keystroke(self.client, [_tmpText characterAtIndex:i]); } int l; l = 1 + _tmpText.length - NSMaxRange(_selectedRange) + (_selectedRange.length > 0); LOG(@"move left %d", l); for(i = 0; i < l; ++i) gfx_keystroke(self.client, Kleft); } LOG(@"text: \"%@\" (%ld,%ld) (%ld,%ld)", _tmpText, _markedRange.location, _markedRange.length, _selectedRange.location, _selectedRange.length); } - (void)unmarkText { //NSUInteger i; NSUInteger len; LOG(@"unmarkText"); len = [_tmpText length]; //for(i = 0; i < len; ++i) // gfx_keystroke(self.client, [_tmpText characterAtIndex:i]); [_tmpText deleteCharactersInRange:NSMakeRange(0, len)]; _markedRange = NSMakeRange(NSNotFound, 0); _selectedRange = NSMakeRange(0, 0); } - (NSArray*)validAttributesForMarkedText { LOG(@"validAttributesForMarkedText"); return @[]; } - (NSAttributedString*)attributedSubstringForProposedRange:(NSRange)r actualRange:(NSRangePointer)actualRange { NSRange sr; NSAttributedString *s; LOG(@"attributedSubstringForProposedRange: (%ld, %ld) (%ld, %ld)", r.location, r.length, actualRange->location, actualRange->length); sr = NSMakeRange(0, [_tmpText length]); sr = NSIntersectionRange(sr, r); if(actualRange) *actualRange = sr; LOG(@"use range: %ld, %ld", sr.location, sr.length); s = nil; if(sr.length) s = [[NSAttributedString alloc] initWithString:[_tmpText substringWithRange:sr]]; LOG(@" return %@", s); return s; } - (void)insertText:(id)s replacementRange:(NSRange)r { NSUInteger i; NSUInteger len; LOG(@"insertText: %@ replacementRange: %ld, %ld", s, r.location, r.length); [self clearInput]; len = [s length]; for(i = 0; i < len; ++i) gfx_keystroke(self.client, [s characterAtIndex:i]); [_tmpText deleteCharactersInRange:NSMakeRange(0, _tmpText.length)]; _markedRange = NSMakeRange(NSNotFound, 0); _selectedRange = NSMakeRange(0, 0); } - (NSUInteger)characterIndexForPoint:(NSPoint)point { LOG(@"characterIndexForPoint: %g, %g", point.x, point.y); return 0; } - (NSRect)firstRectForCharacterRange:(NSRange)r actualRange:(NSRangePointer)actualRange { LOG(@"firstRectForCharacterRange: (%ld, %ld) (%ld, %ld)", r.location, r.length, actualRange->location, actualRange->length); if(actualRange) *actualRange = r; return [[self window] convertRectToScreen:_lastInputRect]; } - (void)doCommandBySelector:(SEL)s { NSEvent *e; NSEventModifierFlags m; uint c, k; LOG(@"doCommandBySelector (%@)", NSStringFromSelector(s)); e = [NSApp currentEvent]; c = [[e characters] characterAtIndex:0]; k = keycvt(c); LOG(@"keyDown: character0: 0x%x -> 0x%x", c, k); m = [e modifierFlags]; if(m & NSEventModifierFlagCommand){ if((m & NSEventModifierFlagShift) && 'a' <= k && k <= 'z') k += 'A' - 'a'; if(' '<=k && k<='~') k += Kcmd; } if(k>0) gfx_keystroke(self.client, k); } // Helper for managing input rect approximately - (void)resetLastInputRect { LOG(@"resetLastInputRect"); _lastInputRect.origin.x = 0.0; _lastInputRect.origin.y = 0.0; _lastInputRect.size.width = 0.0; _lastInputRect.size.height = 0.0; } - (void)enlargeLastInputRect:(NSRect)r { r.origin.y = [self bounds].size.height - r.origin.y - r.size.height; _lastInputRect = NSUnionRect(_lastInputRect, r); LOG(@"update last input rect (%g, %g, %g, %g)", _lastInputRect.origin.x, _lastInputRect.origin.y, _lastInputRect.size.width, _lastInputRect.size.height); } - (void)clearInput { if(_tmpText.length){ uint i; int l; l = 1 + _tmpText.length - NSMaxRange(_selectedRange) + (_selectedRange.length > 0); LOG(@"move right %d", l); for(i = 0; i < l; ++i) gfx_keystroke(self.client, Kright); l = _tmpText.length+2+2*(_selectedRange.length > 0); LOG(@"backspace %d", l); for(uint i = 0; i < l; ++i) gfx_keystroke(self.client, Kbs); } } - (NSApplicationPresentationOptions)window:(id)arg willUseFullScreenPresentationOptions:(NSApplicationPresentationOptions)proposedOptions { NSApplicationPresentationOptions o; o = proposedOptions; o &= ~(NSApplicationPresentationAutoHideDock | NSApplicationPresentationAutoHideMenuBar); o |= NSApplicationPresentationHideDock | NSApplicationPresentationHideMenuBar; return o; } - (void)windowWillEnterFullScreen:(NSNotification*)notification { // TODO: This should only be done if the window // is on the screen with the dock. // But how can you tell which window has the dock? [[NSApplication sharedApplication] setPresentationOptions:NSApplicationPresentationHideMenuBar | NSApplicationPresentationHideDock]; } - (void)windowDidExitFullScreen:(NSNotification*)notification { [[NSApplication sharedApplication] setPresentationOptions:NSApplicationPresentationDefault]; } @end static uint msec(void) { return nsec()/1000000; } static uint keycvt(uint code) { switch(code){ case '\r': return '\n'; case 127: return '\b'; case NSUpArrowFunctionKey: return Kup; case NSDownArrowFunctionKey: return Kdown; case NSLeftArrowFunctionKey: return Kleft; case NSRightArrowFunctionKey: return Kright; case NSInsertFunctionKey: return Kins; case NSDeleteFunctionKey: return Kdel; case NSHomeFunctionKey: return Khome; case NSEndFunctionKey: return Kend; case NSPageUpFunctionKey: return Kpgup; case NSPageDownFunctionKey: return Kpgdown; case NSF1FunctionKey: return KF|1; case NSF2FunctionKey: return KF|2; case NSF3FunctionKey: return KF|3; case NSF4FunctionKey: return KF|4; case NSF5FunctionKey: return KF|5; case NSF6FunctionKey: return KF|6; case NSF7FunctionKey: return KF|7; case NSF8FunctionKey: return KF|8; case NSF9FunctionKey: return KF|9; case NSF10FunctionKey: return KF|10; case NSF11FunctionKey: return KF|11; case NSF12FunctionKey: return KF|12; case NSBeginFunctionKey: case NSPrintScreenFunctionKey: case NSScrollLockFunctionKey: case NSF13FunctionKey: case NSF14FunctionKey: case NSF15FunctionKey: case NSF16FunctionKey: case NSF17FunctionKey: case NSF18FunctionKey: case NSF19FunctionKey: case NSF20FunctionKey: case NSF21FunctionKey: case NSF22FunctionKey: case NSF23FunctionKey: case NSF24FunctionKey: case NSF25FunctionKey: case NSF26FunctionKey: case NSF27FunctionKey: case NSF28FunctionKey: case NSF29FunctionKey: case NSF30FunctionKey: case NSF31FunctionKey: case NSF32FunctionKey: case NSF33FunctionKey: case NSF34FunctionKey: case NSF35FunctionKey: case NSPauseFunctionKey: case NSSysReqFunctionKey: case NSBreakFunctionKey: case NSResetFunctionKey: case NSStopFunctionKey: case NSMenuFunctionKey: case NSUserFunctionKey: case NSSystemFunctionKey: case NSPrintFunctionKey: case NSClearLineFunctionKey: case NSClearDisplayFunctionKey: case NSInsertLineFunctionKey: case NSDeleteLineFunctionKey: case NSInsertCharFunctionKey: case NSDeleteCharFunctionKey: case NSPrevFunctionKey: case NSNextFunctionKey: case NSSelectFunctionKey: case NSExecuteFunctionKey: case NSUndoFunctionKey: case NSRedoFunctionKey: case NSFindFunctionKey: case NSHelpFunctionKey: case NSModeSwitchFunctionKey: return 0; default: return code; } } // rpc_getsnarf reads the current pasteboard as a plain text string. // Called from an RPC thread with no client lock held. char* rpc_getsnarf(void) { char __block *ret; ret = nil; dispatch_sync(dispatch_get_main_queue(), ^(void) { @autoreleasepool { NSPasteboard *pb = [NSPasteboard generalPasteboard]; NSString *s = [pb stringForType:NSPasteboardTypeString]; if(s) ret = strdup((char*)[s UTF8String]); } }); return ret; } // rpc_putsnarf writes the given text to the pasteboard. // Called from an RPC thread with no client lock held. void rpc_putsnarf(char *s) { if(s == nil || strlen(s) >= SnarfSize) return; dispatch_sync(dispatch_get_main_queue(), ^(void) { @autoreleasepool{ NSArray *t = [NSArray arrayWithObject:NSPasteboardTypeString]; NSPasteboard *pb = [NSPasteboard generalPasteboard]; NSString *str = [[NSString alloc] initWithUTF8String:s]; [pb declareTypes:t owner:nil]; [pb setString:str forType:NSPasteboardTypeString]; } }); } // rpc_bouncemouse is for sending a mouse event // back to the X11 window manager rio(1). // Does not apply here. void rpc_bouncemouse(Client *c, Mouse m) { } // We don't use the graphics thread state during memimagedraw, // so rpc_gfxdrawlock and rpc_gfxdrawunlock are no-ops. void rpc_gfxdrawlock(void) { } void rpc_gfxdrawunlock(void) { } static void setprocname(const char *s) { CFStringRef process_name; process_name = CFStringCreateWithBytes(nil, (uchar*)s, strlen(s), kCFStringEncodingUTF8, false); // Adapted from Chrome's mac_util.mm. // http://src.chromium.org/viewvc/chrome/trunk/src/base/mac/mac_util.mm // // Copyright (c) 2012 The Chromium Authors. All rights reserved. // // Redistribution and use in source and binary forms, with or without // modification, are permitted provided that the following conditions are // met: // // * Redistributions of source code must retain the above copyright // notice, this list of conditions and the following disclaimer. // * Redistributions in binary form must reproduce the above // copyright notice, this list of conditions and the following disclaimer // in the documentation and/or other materials provided with the // distribution. // * Neither the name of Google Inc. nor the names of its // contributors may be used to endorse or promote products derived from // this software without specific prior written permission. // // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. // Warning: here be dragons! This is SPI reverse-engineered from WebKit's // plugin host, and could break at any time (although realistically it's only // likely to break in a new major release). // When 10.7 is available, check that this still works, and update this // comment for 10.8. // Private CFType used in these LaunchServices calls. typedef CFTypeRef PrivateLSASN; typedef PrivateLSASN (*LSGetCurrentApplicationASNType)(); typedef OSStatus (*LSSetApplicationInformationItemType)(int, PrivateLSASN, CFStringRef, CFStringRef, CFDictionaryRef*); static LSGetCurrentApplicationASNType ls_get_current_application_asn_func = NULL; static LSSetApplicationInformationItemType ls_set_application_information_item_func = NULL; static CFStringRef ls_display_name_key = NULL; static bool did_symbol_lookup = false; if (!did_symbol_lookup) { did_symbol_lookup = true; CFBundleRef launch_services_bundle = CFBundleGetBundleWithIdentifier(CFSTR("com.apple.LaunchServices")); if (!launch_services_bundle) { fprint(2, "Failed to look up LaunchServices bundle\n"); return; } ls_get_current_application_asn_func = (LSGetCurrentApplicationASNType)( CFBundleGetFunctionPointerForName( launch_services_bundle, CFSTR("_LSGetCurrentApplicationASN"))); if (!ls_get_current_application_asn_func) fprint(2, "Could not find _LSGetCurrentApplicationASN\n"); ls_set_application_information_item_func = (LSSetApplicationInformationItemType)( CFBundleGetFunctionPointerForName( launch_services_bundle, CFSTR("_LSSetApplicationInformationItem"))); if (!ls_set_application_information_item_func) fprint(2, "Could not find _LSSetApplicationInformationItem\n"); CFStringRef* key_pointer = (CFStringRef*)( CFBundleGetDataPointerForName(launch_services_bundle, CFSTR("_kLSDisplayNameKey"))); ls_display_name_key = key_pointer ? *key_pointer : NULL; if (!ls_display_name_key) fprint(2, "Could not find _kLSDisplayNameKey\n"); // Internally, this call relies on the Mach ports that are started up by the // Carbon Process Manager. In debug builds this usually happens due to how // the logging layers are started up; but in release, it isn't started in as // much of a defined order. So if the symbols had to be loaded, go ahead // and force a call to make sure the manager has been initialized and hence // the ports are opened. ProcessSerialNumber psn; GetCurrentProcess(&psn); } if (!ls_get_current_application_asn_func || !ls_set_application_information_item_func || !ls_display_name_key) { return; } PrivateLSASN asn = ls_get_current_application_asn_func(); // Constant used by WebKit; what exactly it means is unknown. const int magic_session_constant = -2; OSErr err = ls_set_application_information_item_func(magic_session_constant, asn, ls_display_name_key, process_name, NULL /* optional out param */); if(err != noErr) fprint(2, "Call to set process name failed\n"); }