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	#define PY_SSIZE_T_CLEAN
	#include <Cocoa/Cocoa.h>
	#include <ApplicationServices/ApplicationServices.h>
	#include <Python.h>
	#include "mplutils.h"

	/* Proper way to check for the OS X version we are compiling for, from
	* https://developer.apple.com/library/archive/documentation/DeveloperTools/Conceptual/cross_development/Using/using.html

	* Renamed symbols cause deprecation warnings, so define macros for the new
	* names if we are compiling on an older SDK */
	#if __MAC_OS_X_VERSION_MIN_REQUIRED < 101400
	#define NSButtonTypeMomentaryLight NSMomentaryLightButton
	#define NSButtonTypePushOnPushOff NSPushOnPushOffButton
	#define NSBezelStyleShadowlessSquare NSShadowlessSquareBezelStyle
	#define CGContext graphicsPort
	#endif


	/* Various NSApplicationDefined event subtypes */
	#define STOP_EVENT_LOOP 2
	#define WINDOW_CLOSING 3


	/* Keep track of number of windows present
	Needed to know when to stop the NSApp */
	static long FigureWindowCount = 0;

	/* Keep track of modifier key states for flagsChanged
	to keep track of press vs release */
	static bool lastCommand = false;
	static bool lastControl = false;
	static bool lastShift = false;
	static bool lastOption = false;
	static bool lastCapsLock = false;
	/* Keep track of whether this specific key modifier was pressed or not */
	static bool keyChangeCommand = false;
	static bool keyChangeControl = false;
	static bool keyChangeShift = false;
	static bool keyChangeOption = false;
	static bool keyChangeCapsLock = false;
	/* Keep track of the current mouse up/down state for open/closed cursor hand */
	static bool leftMouseGrabbing = false;

	/* ---------------------------- Cocoa classes ---------------------------- */

	@interface Window : NSWindow
	{ PyObject* manager;
	}
	- (Window)initWithContentRect:(NSRect)rect styleMask:(unsigned int)mask backing:(NSBackingStoreType)bufferingType defer:(BOOL)deferCreation withManager: (PyObject)theManager;
	- (NSRect)constrainFrameRect:(NSRect)rect toScreen:(NSScreen*)screen;
	- (BOOL)closeButtonPressed;
	@end

	@interface View : NSView <NSWindowDelegate>
	{ PyObject* canvas;
	NSRect rubberband;
	@public double device_scale;
	}
	- (void)dealloc;
	- (void)drawRect:(NSRect)rect;
	- (void)updateDevicePixelRatio:(double)scale;
	- (void)windowDidChangeBackingProperties:(NSNotification*)notification;
	- (void)windowDidResize:(NSNotification*)notification;
	- (View*)initWithFrame:(NSRect)rect;
	- (void)setCanvas: (PyObject*)newCanvas;
	- (void)windowWillClose:(NSNotification*)notification;
	- (BOOL)windowShouldClose:(NSNotification*)notification;
	- (void)mouseEntered:(NSEvent*)event;
	- (void)mouseExited:(NSEvent*)event;
	- (void)mouseDown:(NSEvent*)event;
	- (void)mouseUp:(NSEvent*)event;
	- (void)mouseDragged:(NSEvent*)event;
	- (void)mouseMoved:(NSEvent*)event;
	- (void)rightMouseDown:(NSEvent*)event;
	- (void)rightMouseUp:(NSEvent*)event;
	- (void)rightMouseDragged:(NSEvent*)event;
	- (void)otherMouseDown:(NSEvent*)event;
	- (void)otherMouseUp:(NSEvent*)event;
	- (void)otherMouseDragged:(NSEvent*)event;
	- (void)setRubberband:(NSRect)rect;
	- (void)removeRubberband;
	- (const char)convertKeyEvent:(NSEvent)event;
	- (void)keyDown:(NSEvent*)event;
	- (void)keyUp:(NSEvent*)event;
	- (void)scrollWheel:(NSEvent *)event;
	- (BOOL)acceptsFirstResponder;
	- (void)flagsChanged:(NSEvent*)event;
	@end

	/* ---------------------------- Python classes ---------------------------- */

	// Acquire the GIL, call a method with no args, discarding the result and
	// printing any exception.
	static void gil_call_method(PyObject* obj, const char* name)
	{
	PyGILState_STATE gstate = PyGILState_Ensure();
	PyObject* result = PyObject_CallMethod(obj, name, NULL);
	if (result) {
	Py_DECREF(result);
	} else {
	PyErr_Print();
	}
	PyGILState_Release(gstate);
	}

	void process_event(char const* cls_name, char const* fmt, ...)
	{
	PyGILState_STATE gstate = PyGILState_Ensure();
	PyObject* module = NULL, * cls = NULL,
	* args = NULL, * kwargs = NULL,
	* event = NULL, * result = NULL;
	va_list argp;
	va_start(argp, fmt);
	if (!(module = PyImport_ImportModule("matplotlib.backend_bases"))
	\|\| !(cls = PyObject_GetAttrString(module, cls_name))
	\|\| !(args = PyTuple_New(0))
	\|\| !(kwargs = Py_VaBuildValue(fmt, argp))
	\|\| !(event = PyObject_Call(cls, args, kwargs))
	\|\| !(result = PyObject_CallMethod(event, "_process", ""))) {
	PyErr_Print();
	}
	va_end(argp);
	Py_XDECREF(module);
	Py_XDECREF(cls);
	Py_XDECREF(args);
	Py_XDECREF(kwargs);
	Py_XDECREF(event);
	Py_XDECREF(result);
	PyGILState_Release(gstate);
	}

	static bool backend_inited = false;

	static void lazy_init(void) {
	if (backend_inited) { return; }
	backend_inited = true;

	NSApp = [NSApplication sharedApplication];
	[NSApp setActivationPolicy:NSApplicationActivationPolicyRegular];

	}

	static PyObject*
	event_loop_is_running(PyObject* self)
	{
	if (backend_inited) {
	Py_RETURN_TRUE;
	} else {
	Py_RETURN_FALSE;
	}
	}

	static PyObject*
	wake_on_fd_write(PyObject* unused, PyObject* args)
	{
	int fd;
	if (!PyArg_ParseTuple(args, "i", &fd)) { return NULL; }
	NSFileHandle* fh = [[NSFileHandle alloc] initWithFileDescriptor: fd];
	[fh waitForDataInBackgroundAndNotify];
	[[NSNotificationCenter defaultCenter]
	addObserverForName: NSFileHandleDataAvailableNotification
	object: fh
	queue: nil
	usingBlock: ^(NSNotification* note) {
	PyGILState_STATE gstate = PyGILState_Ensure();
	PyErr_CheckSignals();
	PyGILState_Release(gstate);
	}];
	Py_RETURN_NONE;
	}

	static PyObject*
	stop(PyObject* self)
	{
	[NSApp stop: nil];
	// Post an event to trigger the actual stopping.
	[NSApp postEvent: [NSEvent otherEventWithType: NSEventTypeApplicationDefined
	location: NSZeroPoint
	modifierFlags: 0
	timestamp: 0
	windowNumber: 0
	context: nil
	subtype: 0
	data1: 0
	data2: 0]
	atStart: YES];
	Py_RETURN_NONE;
	}

	static CGFloat _get_device_scale(CGContextRef cr)
	{
	CGSize pixelSize = CGContextConvertSizeToDeviceSpace(cr, CGSizeMake(1, 1));
	return pixelSize.width;
	}

	int mpl_check_modifier(
	NSUInteger modifiers, NSEventModifierFlags flag,
	PyObject* list, char const* name)
	{
	int status = 0;
	if (modifiers & flag) {
	PyObject* py_name = NULL;
	if (!(py_name = PyUnicode_FromString(name))
	\|\| PyList_Append(list, py_name)) {
	status = -1; // failure
	}
	Py_XDECREF(py_name);
	}
	return status;
	}

	PyObject* mpl_modifiers(NSEvent* event)
	{
	PyGILState_STATE gstate = PyGILState_Ensure();
	PyObject* list = NULL;
	if (!(list = PyList_New(0))) {
	goto exit;
	}
	NSUInteger modifiers = [event modifierFlags];
	if (mpl_check_modifier(modifiers, NSEventModifierFlagControl, list, "ctrl")
	\|\| mpl_check_modifier(modifiers, NSEventModifierFlagOption, list, "alt")
	\|\| mpl_check_modifier(modifiers, NSEventModifierFlagShift, list, "shift")
	\|\| mpl_check_modifier(modifiers, NSEventModifierFlagCommand, list, "cmd")) {
	Py_CLEAR(list); // On failure, return NULL with an exception set.
	}
	exit:
	PyGILState_Release(gstate);
	return list;
	}

	typedef struct {
	PyObject_HEAD
	View* view;
	} FigureCanvas;

	static PyTypeObject FigureCanvasType;

	static PyObject*
	FigureCanvas_new(PyTypeObject type, PyObject args, PyObject *kwds)
	{
	lazy_init();
	FigureCanvas self = (FigureCanvas)type->tp_alloc(type, 0);
	if (!self) { return NULL; }
	self->view = [View alloc];
	return (PyObject*)self;
	}

	static int
	FigureCanvas_init(FigureCanvas self, PyObject args, PyObject *kwds)
	{
	if (!self->view) {
	PyErr_SetString(PyExc_RuntimeError, "NSView* is NULL");
	return -1;
	}
	PyObject *builtins = NULL,
	*super_obj = NULL,
	*super_init = NULL,
	*init_res = NULL,
	*wh = NULL;
	// super(FigureCanvasMac, self).__init__(args, *kwargs)
	if (!(builtins = PyImport_AddModule("builtins")) // borrowed.
	\|\| !(super_obj = PyObject_CallMethod(builtins, "super", "OO", &FigureCanvasType, self))
	\|\| !(super_init = PyObject_GetAttrString(super_obj, "__init__"))
	\|\| !(init_res = PyObject_Call(super_init, args, kwds))) {
	goto exit;
	}
	int width, height;
	if (!(wh = PyObject_CallMethod((PyObject*)self, "get_width_height", ""))
	\|\| !PyArg_ParseTuple(wh, "ii", &width, &height)) {
	goto exit;
	}
	NSRect rect = NSMakeRect(0.0, 0.0, width, height);
	self->view = [self->view initWithFrame: rect];
	self->view.autoresizingMask = NSViewWidthSizable \| NSViewHeightSizable;
	int opts = (NSTrackingMouseEnteredAndExited \| NSTrackingMouseMoved \|
	NSTrackingActiveInKeyWindow \| NSTrackingInVisibleRect);
	[self->view addTrackingArea: [
	[NSTrackingArea alloc] initWithRect: rect
	options: opts
	owner: self->view
	userInfo: nil]];
	[self->view setCanvas: (PyObject*)self];

	exit:
	Py_XDECREF(super_obj);
	Py_XDECREF(super_init);
	Py_XDECREF(init_res);
	Py_XDECREF(wh);
	return PyErr_Occurred() ? -1 : 0;
	}

	static void
	FigureCanvas_dealloc(FigureCanvas* self)
	{
	[self->view setCanvas: NULL];
	[self->view release];
	Py_TYPE(self)->tp_free((PyObject*)self);
	}

	static PyObject*
	FigureCanvas_repr(FigureCanvas* self)
	{
	return PyUnicode_FromFormat("FigureCanvas object %p wrapping NSView %p",
	(void)self, (void)(self->view));
	}

	static PyObject*
	FigureCanvas_update(FigureCanvas* self)
	{
	[self->view setNeedsDisplay: YES];
	Py_RETURN_NONE;
	}

	static PyObject*
	FigureCanvas_flush_events(FigureCanvas* self)
	{
	// We run the app, matching any events that are waiting in the queue
	// to process, breaking out of the loop when no events remain and
	// displaying the canvas if needed.
	NSEvent *event;
	while (true) {
	event = [NSApp nextEventMatchingMask: NSEventMaskAny
	untilDate: [NSDate distantPast]
	inMode: NSDefaultRunLoopMode
	dequeue: YES];
	if (!event) {
	break;
	}
	[NSApp sendEvent:event];
	}
	[self->view displayIfNeeded];
	Py_RETURN_NONE;
	}

	static PyObject*
	FigureCanvas_set_cursor(PyObject* unused, PyObject* args)
	{
	int i;
	if (!PyArg_ParseTuple(args, "i", &i)) { return NULL; }
	switch (i) {
	case 1: [[NSCursor arrowCursor] set]; break;
	case 2: [[NSCursor pointingHandCursor] set]; break;
	case 3: [[NSCursor crosshairCursor] set]; break;
	case 4:
	if (leftMouseGrabbing) {
	[[NSCursor closedHandCursor] set];
	} else {
	[[NSCursor openHandCursor] set];
	}
	break;
	/* OSX handles busy state itself so no need to set a cursor here */
	case 5: break;
	case 6: [[NSCursor resizeLeftRightCursor] set]; break;
	case 7: [[NSCursor resizeUpDownCursor] set]; break;
	default: return NULL;
	}
	Py_RETURN_NONE;
	}

	static PyObject*
	FigureCanvas_set_rubberband(FigureCanvas* self, PyObject *args)
	{
	View* view = self->view;
	if (!view) {
	PyErr_SetString(PyExc_RuntimeError, "NSView* is NULL");
	return NULL;
	}
	int x0, y0, x1, y1;
	if (!PyArg_ParseTuple(args, "iiii", &x0, &y0, &x1, &y1)) {
	return NULL;
	}
	x0 /= view->device_scale;
	x1 /= view->device_scale;
	y0 /= view->device_scale;
	y1 /= view->device_scale;
	NSRect rubberband = NSMakeRect(x0 < x1 ? x0 : x1, y0 < y1 ? y0 : y1,
	abs(x1 - x0), abs(y1 - y0));
	[view setRubberband: rubberband];
	Py_RETURN_NONE;
	}

	static PyObject*
	FigureCanvas_remove_rubberband(FigureCanvas* self)
	{
	[self->view removeRubberband];
	Py_RETURN_NONE;
	}

	static PyObject*
	FigureCanvas_start_event_loop(FigureCanvas* self, PyObject* args, PyObject* keywords)
	{
	float timeout = 0.0;

	static char* kwlist[] = {"timeout", NULL};
	if (!PyArg_ParseTupleAndKeywords(args, keywords, "f", kwlist, &timeout)) {
	return NULL;
	}

	NSDate* date =
	(timeout > 0.0) ? [NSDate dateWithTimeIntervalSinceNow: timeout]
	: [NSDate distantFuture];
	while (true)
	{ NSEvent* event = [NSApp nextEventMatchingMask: NSEventMaskAny
	untilDate: date
	inMode: NSDefaultRunLoopMode
	dequeue: YES];
	if (!event \|\| [event type]==NSEventTypeApplicationDefined) { break; }
	[NSApp sendEvent: event];
	}

	Py_RETURN_NONE;
	}

	static PyObject*
	FigureCanvas_stop_event_loop(FigureCanvas* self)
	{
	NSEvent* event = [NSEvent otherEventWithType: NSEventTypeApplicationDefined
	location: NSZeroPoint
	modifierFlags: 0
	timestamp: 0.0
	windowNumber: 0
	context: nil
	subtype: STOP_EVENT_LOOP
	data1: 0
	data2: 0];
	[NSApp postEvent: event atStart: true];
	Py_RETURN_NONE;
	}

	static PyTypeObject FigureCanvasType = {
	PyVarObject_HEAD_INIT(NULL, 0)
	.tp_name = "_macosx.FigureCanvas",
	.tp_basicsize = sizeof(FigureCanvas),
	.tp_dealloc = (destructor)FigureCanvas_dealloc,
	.tp_repr = (reprfunc)FigureCanvas_repr,
	.tp_flags = Py_TPFLAGS_DEFAULT \| Py_TPFLAGS_BASETYPE,
	.tp_init = (initproc)FigureCanvas_init,
	.tp_new = (newfunc)FigureCanvas_new,
	.tp_doc = "A FigureCanvas object wraps a Cocoa NSView object.",
	.tp_methods = (PyMethodDef[]){
	{"update",
	(PyCFunction)FigureCanvas_update,
	METH_NOARGS,
	NULL}, // docstring inherited
	{"flush_events",
	(PyCFunction)FigureCanvas_flush_events,
	METH_NOARGS,
	NULL}, // docstring inherited
	{"set_cursor",
	(PyCFunction)FigureCanvas_set_cursor,
	METH_VARARGS,
	"Set the active cursor."},
	{"set_rubberband",
	(PyCFunction)FigureCanvas_set_rubberband,
	METH_VARARGS,
	"Specify a new rubberband rectangle and invalidate it."},
	{"remove_rubberband",
	(PyCFunction)FigureCanvas_remove_rubberband,
	METH_NOARGS,
	"Remove the current rubberband rectangle."},
	{"start_event_loop",
	(PyCFunction)FigureCanvas_start_event_loop,
	METH_KEYWORDS \| METH_VARARGS,
	NULL}, // docstring inherited
	{"stop_event_loop",
	(PyCFunction)FigureCanvas_stop_event_loop,
	METH_NOARGS,
	NULL}, // docstring inherited
	{} // sentinel
	},
	};

	typedef struct {
	PyObject_HEAD
	Window* window;
	} FigureManager;

	static PyObject*
	FigureManager_new(PyTypeObject type, PyObject args, PyObject *kwds)
	{
	lazy_init();
	Window* window = [Window alloc];
	if (!window) { return NULL; }
	FigureManager self = (FigureManager)type->tp_alloc(type, 0);
	if (!self) {
	[window release];
	return NULL;
	}
	self->window = window;
	++FigureWindowCount;
	return (PyObject*)self;
	}

	static int
	FigureManager_init(FigureManager self, PyObject args, PyObject *kwds)
	{
	PyObject* canvas;
	if (!PyArg_ParseTuple(args, "O", &canvas)) {
	return -1;
	}

	View* view = ((FigureCanvas*)canvas)->view;
	if (!view) { /* Something really weird going on */
	PyErr_SetString(PyExc_RuntimeError, "NSView* is NULL");
	return -1;
	}

	PyObject* size = PyObject_CallMethod(canvas, "get_width_height", "");
	int width, height;
	if (!size \|\| !PyArg_ParseTuple(size, "ii", &width, &height)) {
	Py_XDECREF(size);
	return -1;
	}
	Py_DECREF(size);

	NSRect rect = NSMakeRect( /* x / 100, / y */ 350, width, height);

	self->window = [self->window initWithContentRect: rect
	styleMask: NSWindowStyleMaskTitled
	\| NSWindowStyleMaskClosable
	\| NSWindowStyleMaskResizable
	\| NSWindowStyleMaskMiniaturizable
	backing: NSBackingStoreBuffered
	defer: YES
	withManager: (PyObject*)self];
	Window* window = self->window;
	[window setDelegate: view];
	[window makeFirstResponder: view];
	[[window contentView] addSubview: view];
	[view updateDevicePixelRatio: [window backingScaleFactor]];

	return 0;
	}

	static PyObject*
	FigureManager__set_window_mode(FigureManager* self, PyObject* args)
	{
	const char* window_mode;
	if (!PyArg_ParseTuple(args, "s", &window_mode) \|\| !self->window) {
	return NULL;
	}

	NSString* window_mode_str = [NSString stringWithUTF8String: window_mode];
	if ([window_mode_str isEqualToString: @"tab"]) {
	[self->window setTabbingMode: NSWindowTabbingModePreferred];
	} else if ([window_mode_str isEqualToString: @"window"]) {
	[self->window setTabbingMode: NSWindowTabbingModeDisallowed];
	} else { // system settings
	[self->window setTabbingMode: NSWindowTabbingModeAutomatic];
	}
	Py_RETURN_NONE;
	}

	static PyObject*
	FigureManager_repr(FigureManager* self)
	{
	return PyUnicode_FromFormat("FigureManager object %p wrapping NSWindow %p",
	(void) self, (void)(self->window));
	}

	static void
	FigureManager_dealloc(FigureManager* self)
	{
	[self->window close];
	Py_TYPE(self)->tp_free((PyObject*)self);
	}

	static PyObject*
	FigureManager__show(FigureManager* self)
	{
	[self->window makeKeyAndOrderFront: nil];
	Py_RETURN_NONE;
	}

	static PyObject*
	FigureManager__raise(FigureManager* self)
	{
	[self->window orderFrontRegardless];
	Py_RETURN_NONE;
	}

	static PyObject*
	FigureManager_destroy(FigureManager* self)
	{
	[self->window close];
	self->window = NULL;
	Py_RETURN_NONE;
	}

	static PyObject*
	FigureManager_set_icon(PyObject* null, PyObject* args) {
	PyObject* icon_path;
	if (!PyArg_ParseTuple(args, "O&", &PyUnicode_FSDecoder, &icon_path)) {
	return NULL;
	}
	const char* icon_path_ptr = PyUnicode_AsUTF8(icon_path);
	if (!icon_path_ptr) {
	Py_DECREF(icon_path);
	return NULL;
	}
	@autoreleasepool {
	NSString* ns_icon_path = [NSString stringWithUTF8String: icon_path_ptr];
	Py_DECREF(icon_path);
	if (!ns_icon_path) {
	PyErr_SetString(PyExc_RuntimeError, "Could not convert to NSString*");
	return NULL;
	}
	NSImage* image = [[[NSImage alloc] initByReferencingFile: ns_icon_path] autorelease];
	if (!image) {
	PyErr_SetString(PyExc_RuntimeError, "Could not create NSImage*");
	return NULL;
	}
	if (!image.valid) {
	PyErr_SetString(PyExc_RuntimeError, "Image is not valid");
	return NULL;
	}
	@try {
	NSApplication* app = [NSApplication sharedApplication];
	app.applicationIconImage = image;
	}
	@catch (NSException* exception) {
	PyErr_SetString(PyExc_RuntimeError, exception.reason.UTF8String);
	return NULL;
	}
	}
	Py_RETURN_NONE;
	}

	static PyObject*
	FigureManager_set_window_title(FigureManager* self,
	PyObject args, PyObject kwds)
	{
	const char* title;
	if (!PyArg_ParseTuple(args, "s", &title)) {
	return NULL;
	}
	[self->window setTitle: [NSString stringWithUTF8String: title]];
	Py_RETURN_NONE;
	}

	static PyObject*
	FigureManager_get_window_title(FigureManager* self)
	{
	NSString* title = [self->window title];
	if (title) {
	return PyUnicode_FromString([title UTF8String]);
	} else {
	Py_RETURN_NONE;
	}
	}

	static PyObject*
	FigureManager_resize(FigureManager* self, PyObject args, PyObject kwds)
	{
	int width, height;
	if (!PyArg_ParseTuple(args, "ii", &width, &height)) {
	return NULL;
	}
	Window* window = self->window;
	if (window) {
	CGFloat device_pixel_ratio = [window backingScaleFactor];
	width /= device_pixel_ratio;
	height /= device_pixel_ratio;
	// 36 comes from hard-coded size of toolbar later in code
	[window setContentSize: NSMakeSize(width, height + 36.)];
	}
	Py_RETURN_NONE;
	}

	static PyObject*
	FigureManager_full_screen_toggle(FigureManager* self)
	{
	[self->window toggleFullScreen: nil];
	Py_RETURN_NONE;
	}

	static PyTypeObject FigureManagerType = {
	PyVarObject_HEAD_INIT(NULL, 0)
	.tp_name = "_macosx.FigureManager",
	.tp_basicsize = sizeof(FigureManager),
	.tp_dealloc = (destructor)FigureManager_dealloc,
	.tp_repr = (reprfunc)FigureManager_repr,
	.tp_flags = Py_TPFLAGS_DEFAULT \| Py_TPFLAGS_BASETYPE,
	.tp_init = (initproc)FigureManager_init,
	.tp_new = (newfunc)FigureManager_new,
	.tp_doc = "A FigureManager object wraps a Cocoa NSWindow object.",
	.tp_methods = (PyMethodDef[]){ // All docstrings are inherited.
	{"_show",
	(PyCFunction)FigureManager__show,
	METH_NOARGS},
	{"_raise",
	(PyCFunction)FigureManager__raise,
	METH_NOARGS},
	{"destroy",
	(PyCFunction)FigureManager_destroy,
	METH_NOARGS},
	{"_set_window_mode",
	(PyCFunction)FigureManager__set_window_mode,
	METH_VARARGS,
	"Set the window open mode (system, tab, window)"},
	{"set_icon",
	(PyCFunction)FigureManager_set_icon,
	METH_STATIC \| METH_VARARGS,
	"Set application icon"},
	{"set_window_title",
	(PyCFunction)FigureManager_set_window_title,
	METH_VARARGS},
	{"get_window_title",
	(PyCFunction)FigureManager_get_window_title,
	METH_NOARGS},
	{"resize",
	(PyCFunction)FigureManager_resize,
	METH_VARARGS},
	{"full_screen_toggle",
	(PyCFunction)FigureManager_full_screen_toggle,
	METH_NOARGS},
	{} // sentinel
	},
	};

	@interface NavigationToolbar2Handler : NSObject
	{ PyObject* toolbar;
	NSButton* panbutton;
	NSButton* zoombutton;
	}
	- (NavigationToolbar2Handler)initWithToolbar:(PyObject)toolbar;
	- (void)installCallbacks:(SEL[7])actions forButtons:(NSButton*[7])buttons;
	- (void)home:(id)sender;
	- (void)back:(id)sender;
	- (void)forward:(id)sender;
	- (void)pan:(id)sender;
	- (void)zoom:(id)sender;
	- (void)configure_subplots:(id)sender;
	- (void)save_figure:(id)sender;
	@end

	typedef struct {
	PyObject_HEAD
	NSTextView* messagebox;
	NavigationToolbar2Handler* handler;
	int height;
	} NavigationToolbar2;

	@implementation NavigationToolbar2Handler
	- (NavigationToolbar2Handler)initWithToolbar:(PyObject)theToolbar
	{
	[self init];
	toolbar = theToolbar;
	return self;
	}

	- (void)installCallbacks:(SEL[7])actions forButtons:(NSButton*[7])buttons
	{
	int i;
	for (i = 0; i < 7; i++) {
	SEL action = actions[i];
	NSButton* button = buttons[i];
	[button setTarget: self];
	[button setAction: action];
	if (action == @selector(pan:)) { panbutton = button; }
	if (action == @selector(zoom:)) { zoombutton = button; }
	}
	}

	-(void)home:(id)sender { gil_call_method(toolbar, "home"); }
	-(void)back:(id)sender { gil_call_method(toolbar, "back"); }
	-(void)forward:(id)sender { gil_call_method(toolbar, "forward"); }

	-(void)pan:(id)sender
	{
	if ([sender state]) { [zoombutton setState:NO]; }
	gil_call_method(toolbar, "pan");
	}

	-(void)zoom:(id)sender
	{
	if ([sender state]) { [panbutton setState:NO]; }
	gil_call_method(toolbar, "zoom");
	}

	-(void)configure_subplots:(id)sender { gil_call_method(toolbar, "configure_subplots"); }
	-(void)save_figure:(id)sender { gil_call_method(toolbar, "save_figure"); }
	@end

	static PyObject*
	NavigationToolbar2_new(PyTypeObject type, PyObject args, PyObject *kwds)
	{
	lazy_init();
	NavigationToolbar2Handler* handler = [NavigationToolbar2Handler alloc];
	if (!handler) { return NULL; }
	NavigationToolbar2 self = (NavigationToolbar2)type->tp_alloc(type, 0);
	if (!self) {
	[handler release];
	return NULL;
	}
	self->handler = handler;
	return (PyObject*)self;
	}

	static int
	NavigationToolbar2_init(NavigationToolbar2 self, PyObject args, PyObject *kwds)
	{
	FigureCanvas* canvas;
	const char* images[7];
	const char* tooltips[7];

	const float gap = 2;
	const int height = 36;
	const int imagesize = 24;

	if (!PyArg_ParseTuple(args, "O!(sssssss)(sssssss)",
	&FigureCanvasType, &canvas,
	&images[0], &images[1], &images[2], &images[3],
	&images[4], &images[5], &images[6],
	&tooltips[0], &tooltips[1], &tooltips[2], &tooltips[3],
	&tooltips[4], &tooltips[5], &tooltips[6])) {
	return -1;
	}

	View* view = canvas->view;
	if (!view) {
	PyErr_SetString(PyExc_RuntimeError, "NSView* is NULL");
	return -1;
	}

	self->height = height;

	NSRect bounds = [view bounds];
	NSWindow* window = [view window];

	bounds.origin.y += height;
	[view setFrame: bounds];

	bounds.size.height += height;
	[window setContentSize: bounds.size];

	NSButton* buttons[7];
	SEL actions[7] = {@selector(home:),
	@selector(back:),
	@selector(forward:),
	@selector(pan:),
	@selector(zoom:),
	@selector(configure_subplots:),
	@selector(save_figure:)};
	NSButtonType buttontypes[7] = {NSButtonTypeMomentaryLight,
	NSButtonTypeMomentaryLight,
	NSButtonTypeMomentaryLight,
	NSButtonTypePushOnPushOff,
	NSButtonTypePushOnPushOff,
	NSButtonTypeMomentaryLight,
	NSButtonTypeMomentaryLight};

	NSRect rect;
	NSSize size;
	NSSize scale;

	rect = NSMakeRect(0, 0, imagesize, imagesize);
	rect = [window convertRectToBacking: rect];
	size = rect.size;
	scale = NSMakeSize(imagesize / size.width, imagesize / size.height);

	rect.size.width = 32;
	rect.size.height = 32;
	rect.origin.x = gap;
	rect.origin.y = 0.5*(height - rect.size.height);

	for (int i = 0; i < 7; i++) {
	NSString* filename = [NSString stringWithUTF8String: images[i]];
	NSString* tooltip = [NSString stringWithUTF8String: tooltips[i]];
	NSImage* image = [[NSImage alloc] initWithContentsOfFile: filename];
	buttons[i] = [[NSButton alloc] initWithFrame: rect];
	[image setSize: size];
	// Specify that it is a template image so the content tint
	// color gets updated with the system theme (dark/light)
	[image setTemplate: YES];
	[buttons[i] setBezelStyle: NSBezelStyleShadowlessSquare];
	[buttons[i] setButtonType: buttontypes[i]];
	[buttons[i] setImage: image];
	[buttons[i] scaleUnitSquareToSize: scale];
	[buttons[i] setImagePosition: NSImageOnly];
	[buttons[i] setToolTip: tooltip];
	[[window contentView] addSubview: buttons[i]];
	[buttons[i] release];
	[image release];
	rect.origin.x += rect.size.width + gap;
	}

	self->handler = [self->handler initWithToolbar: (PyObject*)self];
	[self->handler installCallbacks: actions forButtons: buttons];

	NSFont* font = [NSFont systemFontOfSize: 0.0];
	// rect.origin.x is now at the far right edge of the buttons
	// we want the messagebox to take up the rest of the toolbar area
	// Make it a zero-width box if we don't have enough room
	rect.size.width = fmax(bounds.size.width - rect.origin.x, 0);
	rect.origin.x = bounds.size.width - rect.size.width;
	NSTextView* messagebox = [[[NSTextView alloc] initWithFrame: rect] autorelease];
	messagebox.textContainer.maximumNumberOfLines = 2;
	messagebox.textContainer.lineBreakMode = NSLineBreakByTruncatingTail;
	messagebox.alignment = NSTextAlignmentRight;
	[messagebox setFont: font];
	[messagebox setDrawsBackground: NO];
	[messagebox setSelectable: NO];
	/* if selectable, the messagebox can become first responder,
	* which is not supposed to happen */
	[[window contentView] addSubview: messagebox];
	[messagebox release];
	[[window contentView] display];

	self->messagebox = messagebox;
	return 0;
	}

	static void
	NavigationToolbar2_dealloc(NavigationToolbar2 *self)
	{
	[self->handler release];
	Py_TYPE(self)->tp_free((PyObject*)self);
	}

	static PyObject*
	NavigationToolbar2_repr(NavigationToolbar2* self)
	{
	return PyUnicode_FromFormat("NavigationToolbar2 object %p", (void*)self);
	}

	static PyObject*
	NavigationToolbar2_set_message(NavigationToolbar2 self, PyObject args)
	{
	const char* message;

	if (!PyArg_ParseTuple(args, "s", &message)) { return NULL; }

	NSTextView* messagebox = self->messagebox;

	if (messagebox) {
	NSString* text = [NSString stringWithUTF8String: message];
	[messagebox setString: text];

	// Adjust width and height with the window size and content
	NSRect rectWindow = [messagebox.superview frame];
	NSRect rect = [messagebox frame];
	// Entire region to the right of the buttons
	rect.size.width = rectWindow.size.width - rect.origin.x;
	[messagebox setFrame: rect];
	// We want to control the vertical position of
	// the rect by the content size to center it vertically
	[messagebox.layoutManager ensureLayoutForTextContainer: messagebox.textContainer];
	NSRect contentRect = [messagebox.layoutManager usedRectForTextContainer: messagebox.textContainer];
	rect.origin.y = 0.5 * (self->height - contentRect.size.height);
	rect.size.height = contentRect.size.height;
	[messagebox setFrame: rect];
	// Disable cursorRects so that the cursor doesn't get updated by events
	// in NSApp (like resizing TextViews), we want to handle the cursor
	// changes from within MPL with set_cursor() ourselves
	[[messagebox.superview window] disableCursorRects];
	}

	Py_RETURN_NONE;
	}

	static PyTypeObject NavigationToolbar2Type = {
	PyVarObject_HEAD_INIT(NULL, 0)
	.tp_name = "_macosx.NavigationToolbar2",
	.tp_basicsize = sizeof(NavigationToolbar2),
	.tp_dealloc = (destructor)NavigationToolbar2_dealloc,
	.tp_repr = (reprfunc)NavigationToolbar2_repr,
	.tp_flags = Py_TPFLAGS_DEFAULT \| Py_TPFLAGS_BASETYPE,
	.tp_init = (initproc)NavigationToolbar2_init,
	.tp_new = (newfunc)NavigationToolbar2_new,
	.tp_doc = "NavigationToolbar2",
	.tp_methods = (PyMethodDef[]){ // All docstrings are inherited.
	{"set_message",
	(PyCFunction)NavigationToolbar2_set_message,
	METH_VARARGS},
	{} // sentinel
	},
	};

	static PyObject*
	choose_save_file(PyObject* unused, PyObject* args)
	{
	int result;
	const char* title;
	const char* directory;
	const char* default_filename;
	if (!PyArg_ParseTuple(args, "sss", &title, &directory, &default_filename)) {
	return NULL;
	}
	NSSavePanel* panel = [NSSavePanel savePanel];
	[panel setTitle: [NSString stringWithUTF8String: title]];
	[panel setDirectoryURL: [NSURL fileURLWithPath: [NSString stringWithUTF8String: directory]
	isDirectory: YES]];
	[panel setNameFieldStringValue: [NSString stringWithUTF8String: default_filename]];
	result = [panel runModal];
	if (result == NSModalResponseOK) {
	NSString *filename = [[panel URL] path];
	if (!filename) {
	PyErr_SetString(PyExc_RuntimeError, "Failed to obtain filename");
	return 0;
	}
	return PyUnicode_FromString([filename UTF8String]);
	}
	Py_RETURN_NONE;
	}

	@implementation Window
	- (Window)initWithContentRect:(NSRect)rect styleMask:(unsigned int)mask backing:(NSBackingStoreType)bufferingType defer:(BOOL)deferCreation withManager: (PyObject)theManager
	{
	self = [super initWithContentRect: rect
	styleMask: mask
	backing: bufferingType
	defer: deferCreation];
	manager = theManager;
	Py_INCREF(manager);
	return self;
	}

	- (NSRect)constrainFrameRect:(NSRect)rect toScreen:(NSScreen*)screen
	{
	/* Allow window sizes larger than the screen */
	NSRect suggested = [super constrainFrameRect: rect toScreen: screen];
	const CGFloat difference = rect.size.height - suggested.size.height;
	suggested.origin.y -= difference;
	suggested.size.height += difference;
	return suggested;
	}

	- (BOOL)closeButtonPressed
	{
	gil_call_method(manager, "_close_button_pressed");
	return YES;
	}

	- (void)close
	{
	[super close];
	--FigureWindowCount;
	if (!FigureWindowCount) [NSApp stop: self];
	/* This is needed for show(), which should exit from [NSApp run]
	* after all windows are closed.
	*/
	// For each new window, we have incremented the manager reference, so
	// we need to bring that down during close and not just dealloc.
	Py_DECREF(manager);
	}
	@end

	@implementation View
	- (View*)initWithFrame:(NSRect)rect
	{
	self = [super initWithFrame: rect];
	rubberband = NSZeroRect;
	device_scale = 1;
	return self;
	}

	- (void)dealloc
	{
	FigureCanvas* fc = (FigureCanvas*)canvas;
	if (fc) { fc->view = NULL; }
	[super dealloc];
	}

	- (void)setCanvas: (PyObject*)newCanvas
	{
	canvas = newCanvas;
	}

	static void _buffer_release(void* info, const void* data, size_t size) {
	PyBuffer_Release((Py_buffer *)info);
	free(info);
	}

	static int _copy_agg_buffer(CGContextRef cr, PyObject *renderer)
	{
	Py_buffer *buffer = malloc(sizeof(Py_buffer));

	if (PyObject_GetBuffer(renderer, buffer, PyBUF_CONTIG_RO) == -1) {
	PyErr_Print();
	return 1;
	}

	if (buffer->ndim != 3 \|\| buffer->shape[2] != 4) {
	_buffer_release(buffer, NULL, 0);
	return 1;
	}

	const Py_ssize_t nrows = buffer->shape[0];
	const Py_ssize_t ncols = buffer->shape[1];
	const size_t bytesPerComponent = 1;
	const size_t bitsPerComponent = 8 * bytesPerComponent;
	const size_t nComponents = 4; /* red, green, blue, alpha */
	const size_t bitsPerPixel = bitsPerComponent * nComponents;
	const size_t bytesPerRow = nComponents * bytesPerComponent * ncols;

	CGColorSpaceRef colorspace = CGColorSpaceCreateWithName(kCGColorSpaceSRGB);
	if (!colorspace) {
	_buffer_release(buffer, NULL, 0);
	return 1;
	}

	CGDataProviderRef provider = CGDataProviderCreateWithData(buffer,
	buffer->buf,
	buffer->len,
	_buffer_release);
	if (!provider) {
	_buffer_release(buffer, NULL, 0);
	CGColorSpaceRelease(colorspace);
	return 1;
	}

	CGBitmapInfo bitmapInfo = kCGBitmapByteOrderDefault \| kCGImageAlphaLast;
	CGImageRef bitmap = CGImageCreate(ncols,
	nrows,
	bitsPerComponent,
	bitsPerPixel,
	bytesPerRow,
	colorspace,
	bitmapInfo,
	provider,
	NULL,
	false,
	kCGRenderingIntentDefault);
	CGColorSpaceRelease(colorspace);
	CGDataProviderRelease(provider);

	if (!bitmap) {
	return 1;
	}

	CGFloat deviceScale = _get_device_scale(cr);
	CGContextSaveGState(cr);
	CGContextDrawImage(cr, CGRectMake(0, 0, ncols/deviceScale, nrows/deviceScale), bitmap);
	CGImageRelease(bitmap);
	CGContextRestoreGState(cr);

	return 0;
	}

	-(void)drawRect:(NSRect)rect
	{
	PyObject* renderer = NULL;
	PyObject* renderer_buffer = NULL;

	PyGILState_STATE gstate = PyGILState_Ensure();

	CGContextRef cr = [[NSGraphicsContext currentContext] CGContext];

	if (!(renderer = PyObject_CallMethod(canvas, "get_renderer", ""))
	\|\| !(renderer_buffer = PyObject_GetAttrString(renderer, "_renderer"))) {
	PyErr_Print();
	goto exit;
	}
	if (_copy_agg_buffer(cr, renderer_buffer)) {
	printf("copy_agg_buffer failed\n");
	goto exit;
	}
	if (!NSIsEmptyRect(rubberband)) {
	// We use bezier paths so we can stroke the outside with a dash
	// pattern alternating white/black with two separate paths offset
	// in phase.
	NSBezierPath *white_path = [NSBezierPath bezierPathWithRect: rubberband];
	NSBezierPath *black_path = [NSBezierPath bezierPathWithRect: rubberband];
	CGFloat dash_pattern[2] = {3, 3};
	[white_path setLineDash: dash_pattern count: 2 phase: 0];
	[black_path setLineDash: dash_pattern count: 2 phase: 3];
	[[NSColor whiteColor] setStroke];
	[white_path stroke];
	[[NSColor blackColor] setStroke];
	[black_path stroke];
	}

	exit:
	Py_XDECREF(renderer_buffer);
	Py_XDECREF(renderer);

	PyGILState_Release(gstate);
	}

	- (void)updateDevicePixelRatio:(double)scale
	{
	PyObject* change = NULL;
	PyGILState_STATE gstate = PyGILState_Ensure();

	device_scale = scale;
	if (!(change = PyObject_CallMethod(canvas, "_set_device_pixel_ratio", "d", device_scale))) {
	PyErr_Print();
	goto exit;
	}
	if (PyObject_IsTrue(change)) {
	// Notify that there was a resize_event that took place
	process_event(
	"ResizeEvent", "{s:s, s:O}",
	"name", "resize_event", "canvas", canvas);
	gil_call_method(canvas, "draw_idle");
	[self setNeedsDisplay: YES];
	}

	exit:
	Py_XDECREF(change);

	PyGILState_Release(gstate);
	}

	- (void)windowDidChangeBackingProperties:(NSNotification *)notification
	{
	Window* window = [notification object];

	[self updateDevicePixelRatio: [window backingScaleFactor]];
	}

	- (void)windowDidResize: (NSNotification*)notification
	{
	int width, height;
	Window* window = [notification object];
	NSSize size = [[window contentView] frame].size;
	NSRect rect = [self frame];

	size.height -= rect.origin.y;
	width = size.width;
	height = size.height;

	PyGILState_STATE gstate = PyGILState_Ensure();
	PyObject* result = PyObject_CallMethod(
	canvas, "resize", "ii", width, height);
	if (result)
	Py_DECREF(result);
	else
	PyErr_Print();
	PyGILState_Release(gstate);
	[self setNeedsDisplay: YES];
	}

	- (void)windowWillClose:(NSNotification*)notification
	{
	process_event(
	"CloseEvent", "{s:s, s:O}",
	"name", "close_event", "canvas", canvas);
	}

	- (BOOL)windowShouldClose:(NSNotification*)notification
	{
	NSWindow* window = [self window];
	NSEvent* event = [NSEvent otherEventWithType: NSEventTypeApplicationDefined
	location: NSZeroPoint
	modifierFlags: 0
	timestamp: 0.0
	windowNumber: 0
	context: nil
	subtype: WINDOW_CLOSING
	data1: 0
	data2: 0];
	[NSApp postEvent: event atStart: true];
	if ([window respondsToSelector: @selector(closeButtonPressed)]) {
	BOOL closed = [((Window*) window) closeButtonPressed];
	/* If closed, the window has already been closed via the manager. */
	if (closed) { return NO; }
	}
	return YES;
	}

	- (void)mouseEntered:(NSEvent *)event
	{
	int x, y;
	NSPoint location = [event locationInWindow];
	location = [self convertPoint: location fromView: nil];
	x = location.x * device_scale;
	y = location.y * device_scale;
	process_event(
	"LocationEvent", "{s:s, s:O, s:i, s:i, s:N}",
	"name", "figure_enter_event", "canvas", canvas, "x", x, "y", y,
	"modifiers", mpl_modifiers(event));
	}

	- (void)mouseExited:(NSEvent *)event
	{
	int x, y;
	NSPoint location = [event locationInWindow];
	location = [self convertPoint: location fromView: nil];
	x = location.x * device_scale;
	y = location.y * device_scale;
	process_event(
	"LocationEvent", "{s:s, s:O, s:i, s:i, s:N}",
	"name", "figure_leave_event", "canvas", canvas, "x", x, "y", y,
	"modifiers", mpl_modifiers(event));
	}

	- (void)mouseDown:(NSEvent *)event
	{
	int x, y;
	int button;
	int dblclick = 0;
	NSPoint location = [event locationInWindow];
	location = [self convertPoint: location fromView: nil];
	x = location.x * device_scale;
	y = location.y * device_scale;
	switch ([event type])
	{ case NSEventTypeLeftMouseDown:
	{ unsigned int modifier = [event modifierFlags];
	if (modifier & NSEventModifierFlagControl)
	/* emulate a right-button click */
	button = 3;
	else if (modifier & NSEventModifierFlagOption)
	/* emulate a middle-button click */
	button = 2;
	else
	{
	button = 1;
	if ([NSCursor currentCursor]==[NSCursor openHandCursor]) {
	leftMouseGrabbing = true;
	[[NSCursor closedHandCursor] set];
	}
	}
	break;
	}
	case NSEventTypeOtherMouseDown: button = 2; break;
	case NSEventTypeRightMouseDown: button = 3; break;
	default: return; /* Unknown mouse event */
	}
	if ([event clickCount] == 2) {
	dblclick = 1;
	}
	process_event(
	"MouseEvent", "{s:s, s:O, s:i, s:i, s:i, s:i, s:N}",
	"name", "button_press_event", "canvas", canvas, "x", x, "y", y,
	"button", button, "dblclick", dblclick, "modifiers", mpl_modifiers(event));
	}

	- (void)mouseUp:(NSEvent *)event
	{
	int button;
	int x, y;
	NSPoint location = [event locationInWindow];
	location = [self convertPoint: location fromView: nil];
	x = location.x * device_scale;
	y = location.y * device_scale;
	switch ([event type])
	{ case NSEventTypeLeftMouseUp:
	leftMouseGrabbing = false;
	button = 1;
	if ([NSCursor currentCursor]==[NSCursor closedHandCursor])
	[[NSCursor openHandCursor] set];
	break;
	case NSEventTypeOtherMouseUp: button = 2; break;
	case NSEventTypeRightMouseUp: button = 3; break;
	default: return; /* Unknown mouse event */
	}
	process_event(
	"MouseEvent", "{s:s, s:O, s:i, s:i, s:i, s:N}",
	"name", "button_release_event", "canvas", canvas, "x", x, "y", y,
	"button", button, "modifiers", mpl_modifiers(event));
	}

	- (void)mouseMoved:(NSEvent *)event
	{
	int x, y;
	NSPoint location = [event locationInWindow];
	location = [self convertPoint: location fromView: nil];
	x = location.x * device_scale;
	y = location.y * device_scale;
	process_event(
	"MouseEvent", "{s:s, s:O, s:i, s:i, s:N}",
	"name", "motion_notify_event", "canvas", canvas, "x", x, "y", y,
	"modifiers", mpl_modifiers(event));
	}

	- (void)mouseDragged:(NSEvent *)event
	{
	int x, y;
	NSPoint location = [event locationInWindow];
	location = [self convertPoint: location fromView: nil];
	x = location.x * device_scale;
	y = location.y * device_scale;
	process_event(
	"MouseEvent", "{s:s, s:O, s:i, s:i, s:N}",
	"name", "motion_notify_event", "canvas", canvas, "x", x, "y", y,
	"modifiers", mpl_modifiers(event));
	}

	- (void)rightMouseDown:(NSEvent *)event { [self mouseDown: event]; }
	- (void)rightMouseUp:(NSEvent *)event { [self mouseUp: event]; }
	- (void)rightMouseDragged:(NSEvent *)event { [self mouseDragged: event]; }
	- (void)otherMouseDown:(NSEvent *)event { [self mouseDown: event]; }
	- (void)otherMouseUp:(NSEvent *)event { [self mouseUp: event]; }
	- (void)otherMouseDragged:(NSEvent *)event { [self mouseDragged: event]; }

	- (void)setRubberband:(NSRect)rect
	{
	// The space we want to redraw is a union of the previous rubberband
	// with the new rubberband and then expanded (negative inset) by one
	// in each direction to account for the stroke linewidth.
	[self setNeedsDisplayInRect: NSInsetRect(NSUnionRect(rect, rubberband), -1, -1)];
	rubberband = rect;
	}

	- (void)removeRubberband
	{
	if (NSIsEmptyRect(rubberband)) { return; }
	[self setNeedsDisplayInRect: rubberband];
	rubberband = NSZeroRect;
	}

	- (const char)convertKeyEvent:(NSEvent)event
	{
	NSMutableString* returnkey = [NSMutableString string];
	if (keyChangeControl) {
	// When control is the key that was pressed, return the full word
	[returnkey appendString:@"control+"];
	} else if (([event modifierFlags] & NSEventModifierFlagControl)) {
	// If control is already pressed, return the shortened version
	[returnkey appendString:@"ctrl+"];
	}
	if (([event modifierFlags] & NSEventModifierFlagOption) \|\| keyChangeOption) {
	[returnkey appendString:@"alt+" ];
	}
	if (([event modifierFlags] & NSEventModifierFlagCommand) \|\| keyChangeCommand) {
	[returnkey appendString:@"cmd+" ];
	}
	// Don't print caps_lock unless it was the key that got pressed
	if (keyChangeCapsLock) {
	[returnkey appendString:@"caps_lock+" ];
	}

	// flagsChanged event can't handle charactersIgnoringModifiers
	// because it was a modifier key that was pressed/released
	if (event.type != NSEventTypeFlagsChanged) {
	NSString* specialchar;
	switch ([[event charactersIgnoringModifiers] characterAtIndex:0]) {
	case NSLeftArrowFunctionKey: specialchar = @"left"; break;
	case NSRightArrowFunctionKey: specialchar = @"right"; break;
	case NSUpArrowFunctionKey: specialchar = @"up"; break;
	case NSDownArrowFunctionKey: specialchar = @"down"; break;
	case NSF1FunctionKey: specialchar = @"f1"; break;
	case NSF2FunctionKey: specialchar = @"f2"; break;
	case NSF3FunctionKey: specialchar = @"f3"; break;
	case NSF4FunctionKey: specialchar = @"f4"; break;
	case NSF5FunctionKey: specialchar = @"f5"; break;
	case NSF6FunctionKey: specialchar = @"f6"; break;
	case NSF7FunctionKey: specialchar = @"f7"; break;
	case NSF8FunctionKey: specialchar = @"f8"; break;
	case NSF9FunctionKey: specialchar = @"f9"; break;
	case NSF10FunctionKey: specialchar = @"f10"; break;
	case NSF11FunctionKey: specialchar = @"f11"; break;
	case NSF12FunctionKey: specialchar = @"f12"; break;
	case NSF13FunctionKey: specialchar = @"f13"; break;
	case NSF14FunctionKey: specialchar = @"f14"; break;
	case NSF15FunctionKey: specialchar = @"f15"; break;
	case NSF16FunctionKey: specialchar = @"f16"; break;
	case NSF17FunctionKey: specialchar = @"f17"; break;
	case NSF18FunctionKey: specialchar = @"f18"; break;
	case NSF19FunctionKey: specialchar = @"f19"; break;
	case NSScrollLockFunctionKey: specialchar = @"scroll_lock"; break;
	case NSBreakFunctionKey: specialchar = @"break"; break;
	case NSInsertFunctionKey: specialchar = @"insert"; break;
	case NSDeleteFunctionKey: specialchar = @"delete"; break;
	case NSHomeFunctionKey: specialchar = @"home"; break;
	case NSEndFunctionKey: specialchar = @"end"; break;
	case NSPageDownFunctionKey: specialchar = @"pagedown"; break;
	case NSPageUpFunctionKey: specialchar = @"pageup"; break;
	case NSDeleteCharacter: specialchar = @"backspace"; break;
	case NSEnterCharacter: specialchar = @"enter"; break;
	case NSTabCharacter: specialchar = @"tab"; break;
	case NSCarriageReturnCharacter: specialchar = @"enter"; break;
	case NSBackTabCharacter: specialchar = @"backtab"; break;
	case 27: specialchar = @"escape"; break;
	default: specialchar = nil;
	}
	if (specialchar) {
	if (([event modifierFlags] & NSEventModifierFlagShift) \|\| keyChangeShift) {
	[returnkey appendString:@"shift+"];
	}
	[returnkey appendString:specialchar];
	} else {
	[returnkey appendString:[event charactersIgnoringModifiers]];
	}
	} else {
	if (([event modifierFlags] & NSEventModifierFlagShift) \|\| keyChangeShift) {
	[returnkey appendString:@"shift+"];
	}
	// Since it was a modifier event trim the final character of the string
	// because we added in "+" earlier
	[returnkey setString: [returnkey substringToIndex:[returnkey length] - 1]];
	}

	return [returnkey UTF8String];
	}

	- (void)keyDown:(NSEvent*)event
	{
	const char* s = [self convertKeyEvent: event];
	NSPoint location = [[self window] mouseLocationOutsideOfEventStream];
	location = [self convertPoint: location fromView: nil];
	int x = location.x * device_scale,
	y = location.y * device_scale;
	if (s) {
	process_event(
	"KeyEvent", "{s:s, s:O, s:s, s:i, s:i}",
	"name", "key_press_event", "canvas", canvas, "key", s, "x", x, "y", y);
	} else {
	process_event(
	"KeyEvent", "{s:s, s:O, s:O, s:i, s:i}",
	"name", "key_press_event", "canvas", canvas, "key", Py_None, "x", x, "y", y);
	}
	}

	- (void)keyUp:(NSEvent*)event
	{
	const char* s = [self convertKeyEvent: event];
	NSPoint location = [[self window] mouseLocationOutsideOfEventStream];
	location = [self convertPoint: location fromView: nil];
	int x = location.x * device_scale,
	y = location.y * device_scale;
	if (s) {
	process_event(
	"KeyEvent", "{s:s, s:O, s:s, s:i, s:i}",
	"name", "key_release_event", "canvas", canvas, "key", s, "x", x, "y", y);
	} else {
	process_event(
	"KeyEvent", "{s:s, s:O, s:O, s:i, s:i}",
	"name", "key_release_event", "canvas", canvas, "key", Py_None, "x", x, "y", y);
	}
	}

	- (void)scrollWheel:(NSEvent*)event
	{
	int step;
	float d = [event deltaY];
	if (d > 0) { step = 1; }
	else if (d < 0) { step = -1; }
	else return;
	NSPoint location = [event locationInWindow];
	NSPoint point = [self convertPoint: location fromView: nil];
	int x = (int)round(point.x * device_scale);
	int y = (int)round(point.y * device_scale - 1);
	process_event(
	"MouseEvent", "{s:s, s:O, s:i, s:i, s:i, s:N}",
	"name", "scroll_event", "canvas", canvas,
	"x", x, "y", y, "step", step, "modifiers", mpl_modifiers(event));
	}

	- (BOOL)acceptsFirstResponder
	{
	return YES;
	}

	// flagsChanged gets called whenever a modifier key is pressed OR released
	// so we need to handle both cases here
	- (void)flagsChanged:(NSEvent *)event
	{
	bool isPress = false; // true if key is pressed, false if key was released

	// Each if clause tests the two cases for each of the keys we can handle
	// 1. If the modifier flag "command key" is pressed and it was not previously
	// 2. If the modifier flag "command key" is not pressed and it was previously
	// !! converts the result of the bitwise & operator to a logical boolean,
	// which allows us to then bitwise xor (^) the result with a boolean (lastCommand).
	if (!!([event modifierFlags] & NSEventModifierFlagCommand) ^ lastCommand) {
	// Command pressed/released
	lastCommand = !lastCommand;
	keyChangeCommand = true;
	isPress = lastCommand;
	} else if (!!([event modifierFlags] & NSEventModifierFlagControl) ^ lastControl) {
	// Control pressed/released
	lastControl = !lastControl;
	keyChangeControl = true;
	isPress = lastControl;
	} else if (!!([event modifierFlags] & NSEventModifierFlagShift) ^ lastShift) {
	// Shift pressed/released
	lastShift = !lastShift;
	keyChangeShift = true;
	isPress = lastShift;
	} else if (!!([event modifierFlags] & NSEventModifierFlagOption) ^ lastOption) {
	// Option pressed/released
	lastOption = !lastOption;
	keyChangeOption = true;
	isPress = lastOption;
	} else if (!!([event modifierFlags] & NSEventModifierFlagCapsLock) ^ lastCapsLock) {
	// Capslock pressed/released
	lastCapsLock = !lastCapsLock;
	keyChangeCapsLock = true;
	isPress = lastCapsLock;
	} else {
	// flag we don't handle
	return;
	}

	if (isPress) {
	[self keyDown:event];
	} else {
	[self keyUp:event];
	}

	// Reset the state for the key changes after handling the event
	keyChangeCommand = false;
	keyChangeControl = false;
	keyChangeShift = false;
	keyChangeOption = false;
	keyChangeCapsLock = false;
	}
	@end

	static PyObject*
	show(PyObject* self)
	{
	[NSApp activateIgnoringOtherApps: YES];
	NSArray *windowsArray = [NSApp windows];
	NSEnumerator *enumerator = [windowsArray objectEnumerator];
	NSWindow *window;
	while ((window = [enumerator nextObject])) {
	[window orderFront:nil];
	}
	Py_BEGIN_ALLOW_THREADS
	[NSApp run];
	Py_END_ALLOW_THREADS
	Py_RETURN_NONE;
	}

	typedef struct {
	PyObject_HEAD
	NSTimer* timer;

	} Timer;

	static PyObject*
	Timer_new(PyTypeObject* type, PyObject args, PyObject kwds)
	{
	lazy_init();
	Timer* self = (Timer*)type->tp_alloc(type, 0);
	if (!self) {
	return NULL;
	}
	self->timer = NULL;
	return (PyObject*) self;
	}

	static PyObject*
	Timer_repr(Timer* self)
	{
	return PyUnicode_FromFormat("Timer object %p wrapping NSTimer %p",
	(void) self, (void)(self->timer));
	}

	static PyObject*
	Timer__timer_start(Timer* self, PyObject* args)
	{
	NSTimeInterval interval;
	PyObject* py_interval = NULL, * py_single = NULL, * py_on_timer = NULL;
	int single;
	if (!(py_interval = PyObject_GetAttrString((PyObject*)self, "_interval"))
	\|\| ((interval = PyFloat_AsDouble(py_interval) / 1000.), PyErr_Occurred())
	\|\| !(py_single = PyObject_GetAttrString((PyObject*)self, "_single"))
	\|\| ((single = PyObject_IsTrue(py_single)) == -1)
	\|\| !(py_on_timer = PyObject_GetAttrString((PyObject*)self, "_on_timer"))) {
	goto exit;
	}
	if (!PyMethod_Check(py_on_timer)) {
	PyErr_SetString(PyExc_RuntimeError, "_on_timer should be a Python method");
	goto exit;
	}

	// hold a reference to the timer so we can invalidate/stop it later
	self->timer = [NSTimer scheduledTimerWithTimeInterval: interval
	repeats: !single
	block: ^(NSTimer *timer) {
	gil_call_method((PyObject*)self, "_on_timer");
	}];
	exit:
	Py_XDECREF(py_interval);
	Py_XDECREF(py_single);
	Py_XDECREF(py_on_timer);
	if (PyErr_Occurred()) {
	return NULL;
	} else {
	Py_RETURN_NONE;
	}
	}

	static void
	Timer__timer_stop_impl(Timer* self)
	{
	if (self->timer) {
	[self->timer invalidate];
	self->timer = NULL;
	}
	}

	static PyObject*
	Timer__timer_stop(Timer* self)
	{
	Timer__timer_stop_impl(self);
	Py_RETURN_NONE;
	}

	static void
	Timer_dealloc(Timer* self)
	{
	Timer__timer_stop_impl(self);
	Py_TYPE(self)->tp_free((PyObject*)self);
	}

	static PyTypeObject TimerType = {
	PyVarObject_HEAD_INIT(NULL, 0)
	.tp_name = "_macosx.Timer",
	.tp_basicsize = sizeof(Timer),
	.tp_dealloc = (destructor)Timer_dealloc,
	.tp_repr = (reprfunc)Timer_repr,
	.tp_flags = Py_TPFLAGS_DEFAULT \| Py_TPFLAGS_BASETYPE,
	.tp_new = (newfunc)Timer_new,
	.tp_doc = "A Timer object that contains an NSTimer that gets added to the event loop when started.",
	.tp_methods = (PyMethodDef[]){ // All docstrings are inherited.
	{"_timer_start",
	(PyCFunction)Timer__timer_start,
	METH_VARARGS},
	{"_timer_stop",
	(PyCFunction)Timer__timer_stop,
	METH_NOARGS},
	{} // sentinel
	},
	};

	static struct PyModuleDef moduledef = {
	PyModuleDef_HEAD_INIT, "_macosx", "Mac OS X native backend", -1,
	(PyMethodDef[]){
	{"event_loop_is_running",
	(PyCFunction)event_loop_is_running,
	METH_NOARGS,
	"Return whether the OSX backend has set up the NSApp main event loop."},
	{"wake_on_fd_write",
	(PyCFunction)wake_on_fd_write,
	METH_VARARGS,
	"Arrange for Python to invoke its signal handlers when (any) data is\n"
	"written on the file descriptor given as argument."},
	{"stop",
	(PyCFunction)stop,
	METH_NOARGS,
	"Stop the NSApp."},
	{"show",
	(PyCFunction)show,
	METH_NOARGS,
	"Show all the figures and enter the main loop.\n"
	"\n"
	"This function does not return until all Matplotlib windows are closed,\n"
	"and is normally not needed in interactive sessions."},
	{"choose_save_file",
	(PyCFunction)choose_save_file,
	METH_VARARGS,
	"Query the user for a location where to save a file."},
	{} /* Sentinel */
	},
	};

	#pragma GCC visibility push(default)

	PyObject* PyInit__macosx(void)
	{
	PyObject *m;
	if (!(m = PyModule_Create(&moduledef))
	\|\| prepare_and_add_type(&FigureCanvasType, m)
	\|\| prepare_and_add_type(&FigureManagerType, m)
	\|\| prepare_and_add_type(&NavigationToolbar2Type, m)
	\|\| prepare_and_add_type(&TimerType, m)) {
	Py_XDECREF(m);
	return NULL;
	}
	return m;
	}

	#pragma GCC visibility pop