stk-code_catmod/lib/irrlicht/source/Irrlicht/MacOSX/CIrrDeviceMacOSX.mm

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// Copyright (C) 2005-2006 Etienne Petitjean
// Copyright (C) 2007-2012 Christian Stehno
// This file is part of the "Irrlicht Engine".
// For conditions of distribution and use, see copyright notice in Irrlicht.h
#include "IrrCompileConfig.h"
#ifdef _IRR_COMPILE_WITH_OSX_DEVICE_
#import <Cocoa/Cocoa.h>
#import <OpenGL/gl.h>
#ifndef __MAC_10_6
#import <Carbon/Carbon.h>
#endif
#include "CIrrDeviceMacOSX.h"
#include "IEventReceiver.h"
#include "irrList.h"
#include "os.h"
#include "CTimer.h"
#include "irrString.h"
#include "Keycodes.h"
#include <stdio.h>
#include <sys/utsname.h>
#include "COSOperator.h"
#include "CColorConverter.h"
#include "irrlicht.h"
#import <wchar.h>
#import <time.h>
#import "AppDelegate.h"
#if defined _IRR_COMPILE_WITH_JOYSTICK_EVENTS_
#include <IOKit/IOKitLib.h>
#include <IOKit/IOCFPlugIn.h>
#ifdef MACOS_10_0_4
#include <IOKit/hidsystem/IOHIDUsageTables.h>
#else
/* The header was moved here in Mac OS X 10.1 */
#include <Kernel/IOKit/hidsystem/IOHIDUsageTables.h>
#endif
#include <IOKit/hid/IOHIDLib.h>
#include <IOKit/hid/IOHIDKeys.h>
// only OSX 10.5 seems to not need these defines...
#if !defined(__MAC_10_5) || defined(__MAC_10_6)
// Contents from Events.h from Carbon/HIToolbox but we need it with Cocoa too
// and for some reason no Cocoa equivalent of these constants seems provided.
// So I'm doing like everyone else and using copy-and-paste.
/*
* Summary:
* Virtual keycodes
*
* Discussion:
* These constants are the virtual keycodes defined originally in
* Inside Mac Volume V, pg. V-191. They identify physical keys on a
* keyboard. Those constants with "ANSI" in the name are labeled
* according to the key position on an ANSI-standard US keyboard.
* For example, kVK_ANSI_A indicates the virtual keycode for the key
* with the letter 'A' in the US keyboard layout. Other keyboard
* layouts may have the 'A' key label on a different physical key;
* in this case, pressing 'A' will generate a different virtual
* keycode.
*/
enum {
kVK_ANSI_A = 0x00,
kVK_ANSI_S = 0x01,
kVK_ANSI_D = 0x02,
kVK_ANSI_F = 0x03,
kVK_ANSI_H = 0x04,
kVK_ANSI_G = 0x05,
kVK_ANSI_Z = 0x06,
kVK_ANSI_X = 0x07,
kVK_ANSI_C = 0x08,
kVK_ANSI_V = 0x09,
kVK_ANSI_B = 0x0B,
kVK_ANSI_Q = 0x0C,
kVK_ANSI_W = 0x0D,
kVK_ANSI_E = 0x0E,
kVK_ANSI_R = 0x0F,
kVK_ANSI_Y = 0x10,
kVK_ANSI_T = 0x11,
kVK_ANSI_1 = 0x12,
kVK_ANSI_2 = 0x13,
kVK_ANSI_3 = 0x14,
kVK_ANSI_4 = 0x15,
kVK_ANSI_6 = 0x16,
kVK_ANSI_5 = 0x17,
kVK_ANSI_Equal = 0x18,
kVK_ANSI_9 = 0x19,
kVK_ANSI_7 = 0x1A,
kVK_ANSI_Minus = 0x1B,
kVK_ANSI_8 = 0x1C,
kVK_ANSI_0 = 0x1D,
kVK_ANSI_RightBracket = 0x1E,
kVK_ANSI_O = 0x1F,
kVK_ANSI_U = 0x20,
kVK_ANSI_LeftBracket = 0x21,
kVK_ANSI_I = 0x22,
kVK_ANSI_P = 0x23,
kVK_ANSI_L = 0x25,
kVK_ANSI_J = 0x26,
kVK_ANSI_Quote = 0x27,
kVK_ANSI_K = 0x28,
kVK_ANSI_Semicolon = 0x29,
kVK_ANSI_Backslash = 0x2A,
kVK_ANSI_Comma = 0x2B,
kVK_ANSI_Slash = 0x2C,
kVK_ANSI_N = 0x2D,
kVK_ANSI_M = 0x2E,
kVK_ANSI_Period = 0x2F,
kVK_ANSI_Grave = 0x32,
kVK_ANSI_KeypadDecimal = 0x41,
kVK_ANSI_KeypadMultiply = 0x43,
kVK_ANSI_KeypadPlus = 0x45,
kVK_ANSI_KeypadClear = 0x47,
kVK_ANSI_KeypadDivide = 0x4B,
kVK_ANSI_KeypadEnter = 0x4C,
kVK_ANSI_KeypadMinus = 0x4E,
kVK_ANSI_KeypadEquals = 0x51,
kVK_ANSI_Keypad0 = 0x52,
kVK_ANSI_Keypad1 = 0x53,
kVK_ANSI_Keypad2 = 0x54,
kVK_ANSI_Keypad3 = 0x55,
kVK_ANSI_Keypad4 = 0x56,
kVK_ANSI_Keypad5 = 0x57,
kVK_ANSI_Keypad6 = 0x58,
kVK_ANSI_Keypad7 = 0x59,
kVK_ANSI_Keypad8 = 0x5B,
kVK_ANSI_Keypad9 = 0x5C
};
/* keycodes for keys that are independent of keyboard layout*/
enum {
kVK_Return = 0x24,
kVK_Tab = 0x30,
kVK_Space = 0x31,
kVK_Delete = 0x33,
kVK_Escape = 0x35,
kVK_Command = 0x37,
kVK_Shift = 0x38,
kVK_CapsLock = 0x39,
kVK_Option = 0x3A,
kVK_Control = 0x3B,
kVK_RightShift = 0x3C,
kVK_RightOption = 0x3D,
kVK_RightControl = 0x3E,
kVK_Function = 0x3F,
kVK_F17 = 0x40,
kVK_VolumeUp = 0x48,
kVK_VolumeDown = 0x49,
kVK_Mute = 0x4A,
kVK_F18 = 0x4F,
kVK_F19 = 0x50,
kVK_F20 = 0x5A,
kVK_F5 = 0x60,
kVK_F6 = 0x61,
kVK_F7 = 0x62,
kVK_F3 = 0x63,
kVK_F8 = 0x64,
kVK_F9 = 0x65,
kVK_F11 = 0x67,
kVK_F13 = 0x69,
kVK_F16 = 0x6A,
kVK_F14 = 0x6B,
kVK_F10 = 0x6D,
kVK_F12 = 0x6F,
kVK_F15 = 0x71,
kVK_Help = 0x72,
kVK_Home = 0x73,
kVK_PageUp = 0x74,
kVK_ForwardDelete = 0x75,
kVK_F4 = 0x76,
kVK_End = 0x77,
kVK_F2 = 0x78,
kVK_PageDown = 0x79,
kVK_F1 = 0x7A,
kVK_LeftArrow = 0x7B,
kVK_RightArrow = 0x7C,
kVK_DownArrow = 0x7D,
kVK_UpArrow = 0x7E
};
#endif
struct JoystickComponent
{
IOHIDElementCookie cookie; // unique value which identifies element, will NOT change
long min; // reported min value possible
long max; // reported max value possible
long minRead; //min read value
long maxRead; //max read value
JoystickComponent() : min(0), minRead(0), max(0), maxRead(0)
{
}
};
struct JoystickInfo
{
irr::core::array <JoystickComponent> axisComp;
irr::core::array <JoystickComponent> buttonComp;
irr::core::array <JoystickComponent> hatComp;
int hats;
int axes;
int buttons;
int numActiveJoysticks;
irr::SEvent persistentData;
IOHIDDeviceInterface ** interface;
bool removed;
char joystickName[256];
long usage; // usage page from IOUSBHID Parser.h which defines general usage
long usagePage; // usage within above page from IOUSBHID Parser.h which defines specific usage
JoystickInfo() : hats(0), axes(0), buttons(0), interface(0), removed(false), usage(0), usagePage(0), numActiveJoysticks(0)
{
interface = NULL;
memset(joystickName, '\0', 256);
axisComp.clear();
buttonComp.clear();
hatComp.clear();
persistentData.EventType = irr::EET_JOYSTICK_INPUT_EVENT;
persistentData.JoystickEvent.POV = 65535;
persistentData.JoystickEvent.ButtonStates = 0;
}
};
irr::core::array<JoystickInfo> ActiveJoysticks;
//helper functions for init joystick
static IOReturn closeJoystickDevice (JoystickInfo* joyInfo)
{
IOReturn result = kIOReturnSuccess;
if (joyInfo && joyInfo->interface)
{
/* close the interface */
result = (*(joyInfo->interface))->close (joyInfo->interface);
if (kIOReturnNotOpen == result)
{
/* do nothing as device was not opened, thus can't be closed */
}
else if (kIOReturnSuccess != result)
irr::os::Printer::log("IOHIDDeviceInterface failed to close", irr::ELL_ERROR);
/* release the interface */
result = (*(joyInfo->interface))->Release (joyInfo->interface);
if (kIOReturnSuccess != result)
irr::os::Printer::log("IOHIDDeviceInterface failed to release", irr::ELL_ERROR);
joyInfo->interface = NULL;
}
return result;
}
static void addComponentInfo (CFTypeRef refElement, JoystickComponent *pComponent, int numActiveJoysticks)
{
long number;
CFTypeRef refType;
refType = CFDictionaryGetValue ((CFDictionaryRef)refElement, CFSTR(kIOHIDElementCookieKey));
if (refType && CFNumberGetValue ((CFNumberRef)refType, kCFNumberLongType, &number))
pComponent->cookie = (IOHIDElementCookie) number;
refType = CFDictionaryGetValue ((CFDictionaryRef)refElement, CFSTR(kIOHIDElementMinKey));
if (refType && CFNumberGetValue ((CFNumberRef)refType, kCFNumberLongType, &number))
pComponent->minRead = pComponent->min = number;
refType = CFDictionaryGetValue ((CFDictionaryRef)refElement, CFSTR(kIOHIDElementMaxKey));
if (refType && CFNumberGetValue ((CFNumberRef)refType, kCFNumberLongType, &number))
pComponent->maxRead = pComponent->max = number;
}
static void getJoystickComponentArrayHandler (const void * value, void * parameter);
static void addJoystickComponent (CFTypeRef refElement, JoystickInfo* joyInfo)
{
long elementType, usagePage, usage;
CFTypeRef refElementType = CFDictionaryGetValue ((CFDictionaryRef)refElement, CFSTR(kIOHIDElementTypeKey));
CFTypeRef refUsagePage = CFDictionaryGetValue ((CFDictionaryRef)refElement, CFSTR(kIOHIDElementUsagePageKey));
CFTypeRef refUsage = CFDictionaryGetValue ((CFDictionaryRef)refElement, CFSTR(kIOHIDElementUsageKey));
if ((refElementType) && (CFNumberGetValue ((CFNumberRef)refElementType, kCFNumberLongType, &elementType)))
{
/* look at types of interest */
if ((elementType == kIOHIDElementTypeInput_Misc) || (elementType == kIOHIDElementTypeInput_Button) ||
(elementType == kIOHIDElementTypeInput_Axis))
{
if (refUsagePage && CFNumberGetValue ((CFNumberRef)refUsagePage, kCFNumberLongType, &usagePage) &&
refUsage && CFNumberGetValue ((CFNumberRef)refUsage, kCFNumberLongType, &usage))
{
switch (usagePage) /* only interested in kHIDPage_GenericDesktop and kHIDPage_Button */
{
case kHIDPage_GenericDesktop:
{
switch (usage) /* look at usage to determine function */
{
case kHIDUsage_GD_X:
case kHIDUsage_GD_Y:
case kHIDUsage_GD_Z:
case kHIDUsage_GD_Rx:
case kHIDUsage_GD_Ry:
case kHIDUsage_GD_Rz:
case kHIDUsage_GD_Slider:
case kHIDUsage_GD_Dial:
case kHIDUsage_GD_Wheel:
{
joyInfo->axes++;
JoystickComponent newComponent;
addComponentInfo(refElement, &newComponent, joyInfo->numActiveJoysticks);
joyInfo->axisComp.push_back(newComponent);
}
break;
case kHIDUsage_GD_Hatswitch:
{
joyInfo->hats++;
JoystickComponent newComponent;
addComponentInfo(refElement, &newComponent, joyInfo->numActiveJoysticks);
joyInfo->hatComp.push_back(newComponent);
}
break;
}
}
break;
case kHIDPage_Button:
{
joyInfo->buttons++;
JoystickComponent newComponent;
addComponentInfo(refElement, &newComponent, joyInfo->numActiveJoysticks);
joyInfo->buttonComp.push_back(newComponent);
}
break;
default:
break;
}
}
}
else if (kIOHIDElementTypeCollection == elementType)
{
//get elements
CFTypeRef refElementTop = CFDictionaryGetValue ((CFMutableDictionaryRef) refElement, CFSTR(kIOHIDElementKey));
if (refElementTop)
{
CFTypeID type = CFGetTypeID (refElementTop);
if (type == CFArrayGetTypeID())
{
CFRange range = {0, CFArrayGetCount ((CFArrayRef)refElementTop)};
CFArrayApplyFunction ((CFArrayRef)refElementTop, range, getJoystickComponentArrayHandler, joyInfo);
}
}
}
}
}
static void getJoystickComponentArrayHandler (const void * value, void * parameter)
{
if (CFGetTypeID (value) == CFDictionaryGetTypeID ())
addJoystickComponent ((CFTypeRef) value, (JoystickInfo *) parameter);
}
static void joystickTopLevelElementHandler (const void * value, void * parameter)
{
CFTypeRef refCF = 0;
if (CFGetTypeID (value) != CFDictionaryGetTypeID ())
return;
refCF = CFDictionaryGetValue ((CFDictionaryRef)value, CFSTR(kIOHIDElementUsagePageKey));
if (!CFNumberGetValue ((CFNumberRef)refCF, kCFNumberLongType, &((JoystickInfo *) parameter)->usagePage))
irr::os::Printer::log("CFNumberGetValue error retrieving JoystickInfo->usagePage", irr::ELL_ERROR);
refCF = CFDictionaryGetValue ((CFDictionaryRef)value, CFSTR(kIOHIDElementUsageKey));
if (!CFNumberGetValue ((CFNumberRef)refCF, kCFNumberLongType, &((JoystickInfo *) parameter)->usage))
irr::os::Printer::log("CFNumberGetValue error retrieving JoystickInfo->usage", irr::ELL_ERROR);
}
static void getJoystickDeviceInfo (io_object_t hidDevice, CFMutableDictionaryRef hidProperties, JoystickInfo *joyInfo)
{
CFMutableDictionaryRef usbProperties = 0;
io_registry_entry_t parent1, parent2;
/* Mac OS X currently is not mirroring all USB properties to HID page so need to look at USB device page also
* get dictionary for usb properties: step up two levels and get CF dictionary for USB properties
*/
if ((KERN_SUCCESS == IORegistryEntryGetParentEntry (hidDevice, kIOServicePlane, &parent1)) &&
(KERN_SUCCESS == IORegistryEntryGetParentEntry (parent1, kIOServicePlane, &parent2)) &&
(KERN_SUCCESS == IORegistryEntryCreateCFProperties (parent2, &usbProperties, kCFAllocatorDefault, kNilOptions)))
{
if (usbProperties)
{
CFTypeRef refCF = 0;
/* get device info
* try hid dictionary first, if fail then go to usb dictionary
*/
/* get joystickName name */
refCF = CFDictionaryGetValue (hidProperties, CFSTR(kIOHIDProductKey));
if (!refCF)
refCF = CFDictionaryGetValue (usbProperties, CFSTR("USB Product Name"));
if (refCF)
{
if (!CFStringGetCString ((CFStringRef)refCF, joyInfo->joystickName, 256, CFStringGetSystemEncoding ()))
irr::os::Printer::log("CFStringGetCString error getting joyInfo->joystickName", irr::ELL_ERROR);
}
/* get usage page and usage */
refCF = CFDictionaryGetValue (hidProperties, CFSTR(kIOHIDPrimaryUsagePageKey));
if (refCF)
{
if (!CFNumberGetValue ((CFNumberRef)refCF, kCFNumberLongType, &joyInfo->usagePage))
irr::os::Printer::log("CFNumberGetValue error getting joyInfo->usagePage", irr::ELL_ERROR);
refCF = CFDictionaryGetValue (hidProperties, CFSTR(kIOHIDPrimaryUsageKey));
if (refCF)
if (!CFNumberGetValue ((CFNumberRef)refCF, kCFNumberLongType, &joyInfo->usage))
irr::os::Printer::log("CFNumberGetValue error getting joyInfo->usage", irr::ELL_ERROR);
}
if (NULL == refCF) /* get top level element HID usage page or usage */
{
/* use top level element instead */
CFTypeRef refCFTopElement = 0;
refCFTopElement = CFDictionaryGetValue (hidProperties, CFSTR(kIOHIDElementKey));
{
/* refCFTopElement points to an array of element dictionaries */
CFRange range = {0, CFArrayGetCount ((CFArrayRef)refCFTopElement)};
CFArrayApplyFunction ((CFArrayRef)refCFTopElement, range, joystickTopLevelElementHandler, joyInfo);
}
}
CFRelease (usbProperties);
}
else
irr::os::Printer::log("IORegistryEntryCreateCFProperties failed to create usbProperties", irr::ELL_ERROR);
if (kIOReturnSuccess != IOObjectRelease (parent2))
irr::os::Printer::log("IOObjectRelease failed to release parent2", irr::ELL_ERROR);
if (kIOReturnSuccess != IOObjectRelease (parent1))
irr::os::Printer::log("IOObjectRelease failed to release parent1", irr::ELL_ERROR);
}
}
#endif // _IRR_COMPILE_WITH_JOYSTICK_EVENTS_
//------------------------------------------------------------------------------------------
Boolean GetDictionaryBoolean(CFDictionaryRef theDict, const void* key)
{
// get a boolean from the dictionary
Boolean value = false;
CFBooleanRef boolRef;
boolRef = (CFBooleanRef)CFDictionaryGetValue(theDict, key);
if (boolRef != NULL)
value = CFBooleanGetValue(boolRef);
return value;
}
//------------------------------------------------------------------------------------------
long GetDictionaryLong(CFDictionaryRef theDict, const void* key)
{
// get a long from the dictionary
long value = 0;
CFNumberRef numRef;
numRef = (CFNumberRef)CFDictionaryGetValue(theDict, key);
if (numRef != NULL)
CFNumberGetValue(numRef, kCFNumberLongType, &value);
return value;
}
namespace irr
{
namespace video
{
IVideoDriver* createOpenGLDriver(const SIrrlichtCreationParameters& param, io::IFileSystem* io, CIrrDeviceMacOSX *device);
}
} // end namespace irr
static bool firstLaunch = true;
namespace irr
{
//! constructor
CIrrDeviceMacOSX::CIrrDeviceMacOSX(const SIrrlichtCreationParameters& param)
: CIrrDeviceStub(param), Window(NULL), CGLContext(NULL), OGLContext(NULL),
SoftwareDriverTarget(0), DeviceWidth(0), DeviceHeight(0),
ScreenWidth(0), ScreenHeight(0), MouseButtonStates(0), SoftwareRendererType(0),
IsActive(true), IsFullscreen(false), IsShiftDown(false), IsControlDown(false), IsResizable(false)
{
struct utsname name;
NSString *path;
#ifdef _DEBUG
setDebugName("CIrrDeviceMacOSX");
#endif
if (firstLaunch)
{
firstLaunch = false;
if(!CreationParams.WindowId) //load menus if standalone application
{
[[NSAutoreleasePool alloc] init];
[NSApplication sharedApplication];
[NSApp setDelegate:[[[AppDelegate alloc] initWithDevice:this] autorelease]];
[NSBundle loadNibNamed:@"MainMenu" owner:[NSApp delegate]];
[NSApp finishLaunching];
}
path = [[[NSBundle mainBundle] bundlePath] stringByDeletingLastPathComponent];
chdir([path fileSystemRepresentation]);
[path release];
}
uname(&name);
Operator = new COSOperator(name.version);
os::Printer::log(name.version,ELL_INFORMATION);
initKeycodes();
VideoModeList.setDesktop(CreationParams.Bits, core::dimension2d<u32>([[NSScreen mainScreen] frame].size.width, [[NSScreen mainScreen] frame].size.height));
bool success = true;
if (CreationParams.DriverType != video::EDT_NULL)
success = createWindow();
// in case of failure, one can check VideoDriver for initialization
if (!success)
return;
setResizable(false);
CursorControl = new CCursorControl(CreationParams.WindowSize, this);
createDriver();
createGUIAndScene();
}
CIrrDeviceMacOSX::~CIrrDeviceMacOSX()
{
[SoftwareDriverTarget release];
#ifdef __MAC_10_6
[NSApp setPresentationOptions:(NSApplicationPresentationDefault)];
#else
SetSystemUIMode(kUIModeNormal, kUIOptionAutoShowMenuBar);
#endif
closeDevice();
#if defined(_IRR_COMPILE_WITH_JOYSTICK_EVENTS_)
for (u32 joystick = 0; joystick < ActiveJoysticks.size(); ++joystick)
{
if (ActiveJoysticks[joystick].interface)
closeJoystickDevice(&ActiveJoysticks[joystick]);
}
#endif
}
void CIrrDeviceMacOSX::closeDevice()
{
if (Window != NULL)
{
[Window setIsVisible:FALSE];
if (OGLContext != NULL)
{
[OGLContext clearDrawable];
[OGLContext release];
OGLContext = NULL;
}
[Window setReleasedWhenClosed:TRUE];
[Window release];
Window = NULL;
if (IsFullscreen)
CGReleaseAllDisplays();
}
else
{
if (CGLContext != NULL)
{
if(CreationParams.WindowId)
{
[(NSOpenGLContext *)OGLContext clearDrawable];
[(NSOpenGLContext *)OGLContext release];
OGLContext = NULL;
}
else
{
CGLSetCurrentContext(NULL);
CGLClearDrawable(CGLContext);
CGLDestroyContext(CGLContext);
CGReleaseAllDisplays();
}
}
}
IsFullscreen = false;
IsActive = false;
CGLContext = NULL;
}
bool CIrrDeviceMacOSX::createWindow()
{
CGDisplayErr error;
bool result=false;
CGDirectDisplayID display=CGMainDisplayID();
CGLPixelFormatObj pixelFormat;
CGRect displayRect;
#ifdef __MAC_10_6
CGDisplayModeRef displaymode, olddisplaymode;
#else
CFDictionaryRef displaymode, olddisplaymode;
#endif
GLint numPixelFormats, newSwapInterval;
int alphaSize = CreationParams.WithAlphaChannel?4:0;
int depthSize = CreationParams.ZBufferBits;
if (CreationParams.WithAlphaChannel && (CreationParams.Bits == 32))
alphaSize = 8;
ScreenWidth = (int) CGDisplayPixelsWide(display);
ScreenHeight = (int) CGDisplayPixelsHigh(display);
// we need to check where the exceptions may happen and work at them
// for now we will just catch them to be able to avoid an app exit
//@try
//{
if (!CreationParams.Fullscreen)
{
if(!CreationParams.WindowId) //create another window when WindowId is null
{
NSBackingStoreType type = (CreationParams.DriverType == video::EDT_OPENGL) ? NSBackingStoreBuffered : NSBackingStoreNonretained;
Window = [[NSWindow alloc] initWithContentRect:NSMakeRect(0,0,CreationParams.WindowSize.Width,CreationParams.WindowSize.Height) styleMask:NSTitledWindowMask+NSClosableWindowMask+NSResizableWindowMask backing:type defer:FALSE];
}
if (Window != NULL || CreationParams.WindowId)
{
if (CreationParams.DriverType == video::EDT_OPENGL)
{
NSOpenGLPixelFormatAttribute windowattribs[] =
{
NSOpenGLPFANoRecovery,
NSOpenGLPFAAccelerated,
NSOpenGLPFADepthSize, (NSOpenGLPixelFormatAttribute)depthSize,
NSOpenGLPFAColorSize, (NSOpenGLPixelFormatAttribute)CreationParams.Bits,
NSOpenGLPFAAlphaSize, (NSOpenGLPixelFormatAttribute)alphaSize,
NSOpenGLPFASampleBuffers, (NSOpenGLPixelFormatAttribute)1,
NSOpenGLPFASamples, (NSOpenGLPixelFormatAttribute)CreationParams.AntiAlias,
NSOpenGLPFAStencilSize, (NSOpenGLPixelFormatAttribute)(CreationParams.Stencilbuffer?1:0),
NSOpenGLPFADoubleBuffer,
NSOpenGLPFAOpenGLProfile, (NSOpenGLPixelFormatAttribute)NSOpenGLProfileVersion3_2Core,
(NSOpenGLPixelFormatAttribute)nil
};
if (CreationParams.AntiAlias<2)
{
windowattribs[ 9] = (NSOpenGLPixelFormatAttribute)0;
windowattribs[11] = (NSOpenGLPixelFormatAttribute)0;
}
NSOpenGLPixelFormat *format;
for (int i=0; i<3; ++i)
{
if (1==i)
{
// Second try without stencilbuffer
if (CreationParams.Stencilbuffer)
{
windowattribs[13]=(NSOpenGLPixelFormatAttribute)0;
}
else
continue;
}
else if (2==i)
{
// Third try without Doublebuffer
os::Printer::log("No doublebuffering available.", ELL_WARNING);
windowattribs[14]=(NSOpenGLPixelFormatAttribute)nil;
}
format = [[NSOpenGLPixelFormat alloc] initWithAttributes:windowattribs];
if (format == NULL)
{
if (CreationParams.AntiAlias>1)
{
while (!format && windowattribs[12]>1)
{
windowattribs[12] = (NSOpenGLPixelFormatAttribute)((int)windowattribs[12]-1);
format = [[NSOpenGLPixelFormat alloc] initWithAttributes:windowattribs];
}
if (!format)
{
windowattribs[9] = (NSOpenGLPixelFormatAttribute)0;
windowattribs[11] = (NSOpenGLPixelFormatAttribute)0;
format = [[NSOpenGLPixelFormat alloc] initWithAttributes:windowattribs];
if (!format)
{
// reset values for next try
windowattribs[9] = (NSOpenGLPixelFormatAttribute)1;
windowattribs[11] = (NSOpenGLPixelFormatAttribute)CreationParams.AntiAlias;
}
else
{
os::Printer::log("No FSAA available.", ELL_WARNING);
}
}
}
}
else
break;
}
CreationParams.AntiAlias = windowattribs[11];
CreationParams.Stencilbuffer=(windowattribs[13]==1);
if (format != NULL)
{
OGLContext = [[NSOpenGLContext alloc] initWithFormat:format shareContext:NULL];
[format release];
}
}
if (OGLContext != NULL || CreationParams.DriverType != video::EDT_OPENGL)
{
if (!CreationParams.WindowId)
{
[Window center];
[(NSFileManager *)Window setDelegate:[(NSFileManager *)NSApp delegate]];
if(CreationParams.DriverType == video::EDT_OPENGL)
[OGLContext setView:[Window contentView]];
[Window setAcceptsMouseMovedEvents:TRUE];
[Window setIsVisible:TRUE];
[Window makeKeyAndOrderFront:nil];
}
else if(CreationParams.DriverType == video::EDT_OPENGL) //use another window for drawing
[OGLContext setView:(NSView*)CreationParams.WindowId];
if (CreationParams.DriverType == video::EDT_OPENGL)
CGLContext = (CGLContextObj) [OGLContext CGLContextObj];
DeviceWidth = CreationParams.WindowSize.Width;
DeviceHeight = CreationParams.WindowSize.Height;
result = true;
}
}
}
else
{
IsFullscreen = true;
#ifdef __MAC_10_6
displaymode = CGDisplayCopyDisplayMode(display);
CFArrayRef Modes = CGDisplayCopyAllDisplayModes(display, NULL);
for(int i = 0; i < CFArrayGetCount(Modes); ++i)
{
CGDisplayModeRef CurrentMode = (CGDisplayModeRef)CFArrayGetValueAtIndex(Modes, i);
u8 Depth = 0;
CFStringRef pixEnc = CGDisplayModeCopyPixelEncoding(CurrentMode);
if(CFStringCompare(pixEnc, CFSTR(IO32BitDirectPixels), kCFCompareCaseInsensitive) == kCFCompareEqualTo)
Depth = 32;
else
if(CFStringCompare(pixEnc, CFSTR(IO16BitDirectPixels), kCFCompareCaseInsensitive) == kCFCompareEqualTo)
Depth = 16;
else
if(CFStringCompare(pixEnc, CFSTR(IO8BitIndexedPixels), kCFCompareCaseInsensitive) == kCFCompareEqualTo)
Depth = 8;
if(Depth == CreationParams.Bits)
if((CGDisplayModeGetWidth(CurrentMode) == CreationParams.WindowSize.Width) && (CGDisplayModeGetHeight(CurrentMode) == CreationParams.WindowSize.Height))
{
displaymode = CurrentMode;
break;
}
}
#else
displaymode = CGDisplayBestModeForParameters(display,CreationParams.Bits,CreationParams.WindowSize.Width,CreationParams.WindowSize.Height,NULL);
#endif
if (displaymode != NULL)
{
#ifdef __MAC_10_6
olddisplaymode = CGDisplayCopyDisplayMode(display);
#else
olddisplaymode = CGDisplayCurrentMode(display);
#endif
error = CGCaptureAllDisplays();
if (error == CGDisplayNoErr)
{
#ifdef __MAC_10_6
error = CGDisplaySetDisplayMode(display, displaymode, NULL);
#else
error = CGDisplaySwitchToMode(display, displaymode);
#endif
if (error == CGDisplayNoErr)
{
if (CreationParams.DriverType == video::EDT_OPENGL)
{
CGLPixelFormatAttribute fullattribs[] =
{
kCGLPFAOpenGLProfile, (CGLPixelFormatAttribute)kCGLOGLPVersion_3_2_Core,
//kCGLPFAFullScreen,
//kCGLPFADisplayMask, (CGLPixelFormatAttribute)CGDisplayIDToOpenGLDisplayMask(display),
kCGLPFADoubleBuffer,
//kCGLPFANoRecovery,
//kCGLPFAAccelerated,
kCGLPFADepthSize, (CGLPixelFormatAttribute)depthSize,
kCGLPFAColorSize, (CGLPixelFormatAttribute)CreationParams.Bits,
//kCGLPFAAlphaSize, (CGLPixelFormatAttribute)alphaSize,
//kCGLPFASampleBuffers, (CGLPixelFormatAttribute)(CreationParams.AntiAlias?1:0),
//kCGLPFASamples, (CGLPixelFormatAttribute)CreationParams.AntiAlias,
//kCGLPFAStencilSize, (CGLPixelFormatAttribute)(CreationParams.Stencilbuffer?1:0),
(CGLPixelFormatAttribute)NULL
};
printf("Creating OpenGL device with flags: kCGLPFAColorSize : %i | kCGLPFADepthSize : %i ",
(int)CreationParams.Bits,
(int)depthSize
);
pixelFormat = NULL;
numPixelFormats = 0;
CGLError error = CGLChoosePixelFormat(fullattribs,&pixelFormat,&numPixelFormats);
if (error != kCGErrorSuccess)
{
os::Printer::log("CGLChoosePixelFormat returned error", ELL_WARNING);
printf("OSX DEBUG: CGLChoosePixelFormat returned error %i (%s)\n",
(int)error, CGLErrorString (error));
}
if (pixelFormat != NULL)
{
printf("OSX DEBUG: pixelFormat != NULL\n");
CGLCreateContext(pixelFormat,NULL,&CGLContext);
CGLDestroyPixelFormat(pixelFormat);
}
else
{
os::Printer::log("CGLChoosePixelFormat returned NULL pixelFormat", ELL_WARNING);
}
if (CGLContext != NULL)
{
#ifdef __MAC_10_6
CGLSetFullScreenOnDisplay(CGLContext, CGDisplayIDToOpenGLDisplayMask(display));
#else
CGLSetFullScreen(CGLContext);
#endif
displayRect = CGDisplayBounds(display);
ScreenWidth = DeviceWidth = (int)displayRect.size.width;
ScreenHeight = DeviceHeight = (int)displayRect.size.height;
CreationParams.WindowSize.set(ScreenWidth, ScreenHeight);
result = true;
}
else
{
os::Printer::log("CGLContext is null", ELL_WARNING);
}
}
else
{
Window = [[NSWindow alloc] initWithContentRect:[[NSScreen mainScreen] frame] styleMask:NSBorderlessWindowMask backing:NSBackingStoreNonretained defer:NO screen:[NSScreen mainScreen]];
[Window setLevel: CGShieldingWindowLevel()];
[Window setAcceptsMouseMovedEvents:TRUE];
[Window setIsVisible:TRUE];
[Window makeKeyAndOrderFront:nil];
displayRect = CGDisplayBounds(display);
ScreenWidth = DeviceWidth = (int)displayRect.size.width;
ScreenHeight = DeviceHeight = (int)displayRect.size.height;
CreationParams.WindowSize.set(ScreenWidth, ScreenHeight);
result = true;
}
}
if (!result)
CGReleaseAllDisplays();
}
}
}
//}
//@catch (NSException *exception)
//{
// closeDevice();
// result = false;
//}
if (result)
{
// fullscreen?
if (Window == NULL && !CreationParams.WindowId) //hide menus in fullscreen mode only
#ifdef __MAC_10_6
[NSApp setPresentationOptions:(NSApplicationPresentationAutoHideDock | NSApplicationPresentationAutoHideMenuBar)];
#else
SetSystemUIMode(kUIModeAllHidden, kUIOptionAutoShowMenuBar);
#endif
if(CreationParams.DriverType == video::EDT_OPENGL)
{
CGLSetCurrentContext(CGLContext);
newSwapInterval = (CreationParams.Vsync) ? 1 : 0;
CGLSetParameter(CGLContext,kCGLCPSwapInterval,&newSwapInterval);
}
}
return (result);
}
void CIrrDeviceMacOSX::setResize(int width, int height)
{
// set new window size
DeviceWidth = width;
DeviceHeight = height;
// update the size of the opengl rendering context
if(OGLContext);
[OGLContext update];
// resize the driver to the inner pane size
if (Window)
{
NSRect driverFrame = [Window contentRectForFrameRect:[Window frame]];
getVideoDriver()->OnResize(core::dimension2d<u32>( (s32)driverFrame.size.width, (s32)driverFrame.size.height));
}
else
getVideoDriver()->OnResize(core::dimension2d<u32>( (s32)width, (s32)height));
if (CreationParams.WindowId && OGLContext)
[(NSOpenGLContext *)OGLContext update];
}
void CIrrDeviceMacOSX::createDriver()
{
switch (CreationParams.DriverType)
{
case video::EDT_SOFTWARE:
#ifdef _IRR_COMPILE_WITH_SOFTWARE_
VideoDriver = video::createSoftwareDriver(CreationParams.WindowSize, CreationParams.Fullscreen, FileSystem, this);
SoftwareRendererType = 2;
#else
os::Printer::log("No Software driver support compiled in.", ELL_ERROR);
#endif
break;
case video::EDT_BURNINGSVIDEO:
#ifdef _IRR_COMPILE_WITH_BURNINGSVIDEO_
VideoDriver = video::createBurningVideoDriver(CreationParams, FileSystem, this);
SoftwareRendererType = 1;
#else
os::Printer::log("Burning's video driver was not compiled in.", ELL_ERROR);
#endif
break;
case video::EDT_OPENGL:
#ifdef _IRR_COMPILE_WITH_OPENGL_
VideoDriver = video::createOpenGLDriver(CreationParams, FileSystem, this);
#else
os::Printer::log("No OpenGL support compiled in.", ELL_ERROR);
#endif
break;
case video::EDT_DIRECT3D8:
case video::EDT_DIRECT3D9:
os::Printer::log("This driver is not available in OSX. Try OpenGL or Software renderer.", ELL_ERROR);
break;
case video::EDT_NULL:
VideoDriver = video::createNullDriver(FileSystem, CreationParams.WindowSize);
break;
default:
os::Printer::log("Unable to create video driver of unknown type.", ELL_ERROR);
break;
}
}
void CIrrDeviceMacOSX::flush()
{
if (CGLContext != NULL)
{
glFinish();
CGLFlushDrawable(CGLContext);
}
}
bool CIrrDeviceMacOSX::run()
{
NSAutoreleasePool* Pool = [[NSAutoreleasePool alloc] init];
NSEvent *event;
irr::SEvent ievent;
os::Timer::tick();
storeMouseLocation();
event = [NSApp nextEventMatchingMask:NSAnyEventMask untilDate:[NSDate distantPast] inMode:NSDefaultRunLoopMode dequeue:YES];
if (event != nil)
{
bzero(&ievent,sizeof(ievent));
switch([(NSEvent *)event type])
{
case NSKeyDown:
postKeyEvent(event,ievent,true);
break;
case NSKeyUp:
postKeyEvent(event,ievent,false);
break;
case NSFlagsChanged:
ievent.EventType = irr::EET_KEY_INPUT_EVENT;
ievent.KeyInput.Shift = ([(NSEvent *)event modifierFlags] & NSShiftKeyMask) != 0;
ievent.KeyInput.Control = ([(NSEvent *)event modifierFlags] & NSControlKeyMask) != 0;
if (IsShiftDown != ievent.KeyInput.Shift)
{
ievent.KeyInput.Char = irr::IRR_KEY_SHIFT;
ievent.KeyInput.Key = irr::IRR_KEY_SHIFT;
ievent.KeyInput.PressedDown = ievent.KeyInput.Shift;
IsShiftDown = ievent.KeyInput.Shift;
postEventFromUser(ievent);
}
if (IsControlDown != ievent.KeyInput.Control)
{
ievent.KeyInput.Char = irr::IRR_KEY_CONTROL;
ievent.KeyInput.Key = irr::IRR_KEY_CONTROL;
ievent.KeyInput.PressedDown = ievent.KeyInput.Control;
IsControlDown = ievent.KeyInput.Control;
postEventFromUser(ievent);
}
[NSApp sendEvent:event];
break;
case NSLeftMouseDown:
ievent.EventType = irr::EET_MOUSE_INPUT_EVENT;
ievent.MouseInput.Event = irr::EMIE_LMOUSE_PRESSED_DOWN;
MouseButtonStates |= irr::EMBSM_LEFT;
ievent.MouseInput.ButtonStates = MouseButtonStates;
postMouseEvent(event,ievent);
break;
case NSLeftMouseUp:
ievent.EventType = irr::EET_MOUSE_INPUT_EVENT;
MouseButtonStates &= !irr::EMBSM_LEFT;
ievent.MouseInput.ButtonStates = MouseButtonStates;
ievent.MouseInput.Event = irr::EMIE_LMOUSE_LEFT_UP;
postMouseEvent(event,ievent);
break;
case NSOtherMouseDown:
ievent.EventType = irr::EET_MOUSE_INPUT_EVENT;
ievent.MouseInput.Event = irr::EMIE_MMOUSE_PRESSED_DOWN;
MouseButtonStates |= irr::EMBSM_MIDDLE;
ievent.MouseInput.ButtonStates = MouseButtonStates;
postMouseEvent(event,ievent);
break;
case NSOtherMouseUp:
ievent.EventType = irr::EET_MOUSE_INPUT_EVENT;
MouseButtonStates &= !irr::EMBSM_MIDDLE;
ievent.MouseInput.ButtonStates = MouseButtonStates;
ievent.MouseInput.Event = irr::EMIE_MMOUSE_LEFT_UP;
postMouseEvent(event,ievent);
break;
case NSMouseMoved:
case NSLeftMouseDragged:
case NSRightMouseDragged:
case NSOtherMouseDragged:
ievent.EventType = irr::EET_MOUSE_INPUT_EVENT;
ievent.MouseInput.Event = irr::EMIE_MOUSE_MOVED;
ievent.MouseInput.ButtonStates = MouseButtonStates;
postMouseEvent(event,ievent);
break;
case NSRightMouseDown:
ievent.EventType = irr::EET_MOUSE_INPUT_EVENT;
ievent.MouseInput.Event = irr::EMIE_RMOUSE_PRESSED_DOWN;
MouseButtonStates |= irr::EMBSM_RIGHT;
ievent.MouseInput.ButtonStates = MouseButtonStates;
postMouseEvent(event,ievent);
break;
case NSRightMouseUp:
ievent.EventType = irr::EET_MOUSE_INPUT_EVENT;
ievent.MouseInput.Event = irr::EMIE_RMOUSE_LEFT_UP;
MouseButtonStates &= !irr::EMBSM_RIGHT;
ievent.MouseInput.ButtonStates = MouseButtonStates;
postMouseEvent(event,ievent);
break;
case NSScrollWheel:
ievent.EventType = irr::EET_MOUSE_INPUT_EVENT;
ievent.MouseInput.Event = irr::EMIE_MOUSE_WHEEL;
ievent.MouseInput.Wheel = [(NSEvent *)event deltaY];
if (ievent.MouseInput.Wheel < 1.0f)
ievent.MouseInput.Wheel *= 10.0f;
else
ievent.MouseInput.Wheel *= 5.0f;
postMouseEvent(event,ievent);
break;
default:
[NSApp sendEvent:event];
break;
}
}
pollJoysticks();
[Pool release];
return (![[NSApp delegate] isQuit] && IsActive);
}
//! Pause the current process for the minimum time allowed only to allow other processes to execute
void CIrrDeviceMacOSX::yield()
{
struct timespec ts = {0,0};
nanosleep(&ts, NULL);
}
//! Pause execution and let other processes to run for a specified amount of time.
void CIrrDeviceMacOSX::sleep(u32 timeMs, bool pauseTimer=false)
{
bool wasStopped = Timer ? Timer->isStopped() : true;
struct timespec ts;
ts.tv_sec = (time_t) (timeMs / 1000);
ts.tv_nsec = (long) (timeMs % 1000) * 1000000;
if (pauseTimer && !wasStopped)
Timer->stop();
nanosleep(&ts, NULL);
if (pauseTimer && !wasStopped)
Timer->start();
}
void CIrrDeviceMacOSX::setWindowCaption(const wchar_t* text)
{
size_t size;
char title[1024];
if (Window != NULL)
{
size = wcstombs(title,text,1024);
title[1023] = 0;
#ifdef __MAC_10_6
NSString* name = [NSString stringWithCString:title encoding:NSUTF8StringEncoding];
#else
NSString* name = [NSString stringWithCString:title length:size];
#endif
[Window setTitle:name];
[name release];
}
}
bool CIrrDeviceMacOSX::isWindowActive() const
{
return (IsActive);
}
bool CIrrDeviceMacOSX::isWindowFocused() const
{
if (Window != NULL)
return [Window isKeyWindow];
return false;
}
bool CIrrDeviceMacOSX::isWindowMinimized() const
{
if (Window != NULL)
return [Window isMiniaturized];
return false;
}
void CIrrDeviceMacOSX::postKeyEvent(void *event,irr::SEvent &ievent,bool pressed)
{
NSString *str;
std::map<int,int>::const_iterator iter;
unsigned int result,c,mkey,mchar;
const unsigned char *cStr;
BOOL skipCommand;
str = [(NSEvent *)event characters];
if ((str != nil) && ([str length] > 0))
{
mkey = mchar = 0;
skipCommand = false;
c = [str characterAtIndex:0];
mchar = c;
iter = KeyCodes.find([(NSEvent *)event keyCode]);
if (iter != KeyCodes.end())
mkey = (*iter).second;
else if ((iter = KeyCodes.find(c)) != KeyCodes.end())
mkey = (*iter).second;
else
{
// workaround for period character
if (c == 0x2E)
{
mkey = irr::IRR_KEY_PERIOD;
mchar = '.';
}
else
{
cStr = (unsigned char *)[str cStringUsingEncoding:NSWindowsCP1252StringEncoding];
if (cStr != NULL && strlen((char*)cStr) > 0)
{
mchar = cStr[0];
mkey = toupper(mchar);
if ([(NSEvent *)event modifierFlags] & NSCommandKeyMask)
{
if (mkey == 'C' || mkey == 'V' || mkey == 'X')
{
mchar = 0;
skipCommand = true;
}
}
}
}
}
ievent.EventType = irr::EET_KEY_INPUT_EVENT;
ievent.KeyInput.Key = (irr::EKEY_CODE)mkey;
ievent.KeyInput.PressedDown = pressed;
ievent.KeyInput.Shift = ([(NSEvent *)event modifierFlags] & NSShiftKeyMask) != 0;
ievent.KeyInput.Control = ([(NSEvent *)event modifierFlags] & NSControlKeyMask) != 0;
ievent.KeyInput.Char = mchar;
if (skipCommand)
ievent.KeyInput.Control = true;
else if ([(NSEvent *)event modifierFlags] & NSCommandKeyMask)
[NSApp sendEvent:(NSEvent *)event];
postEventFromUser(ievent);
}
}
void CIrrDeviceMacOSX::postMouseEvent(void *event,irr::SEvent &ievent)
{
bool post = true;
if (Window != NULL)
{
ievent.MouseInput.X = (int)[(NSEvent *)event locationInWindow].x;
ievent.MouseInput.Y = DeviceHeight - (int)[(NSEvent *)event locationInWindow].y;
if (ievent.MouseInput.Y < 0)
post = false;
}
else
{
CGEventRef ourEvent = CGEventCreate(NULL);
CGPoint point = CGEventGetLocation(ourEvent);
CFRelease(ourEvent);
ievent.MouseInput.X = (int)point.x;
ievent.MouseInput.Y = (int)point.y;
if (ievent.MouseInput.Y < 0)
post = false;
}
if (post)
postEventFromUser(ievent);
[NSApp sendEvent:(NSEvent *)event];
}
void CIrrDeviceMacOSX::storeMouseLocation()
{
int x,y;
if (Window != NULL)
{
NSPoint p;
p = [NSEvent mouseLocation];
p = [Window convertScreenToBase:p];
x = (int)p.x;
y = DeviceHeight - (int)p.y;
}
else
{
CGEventRef ourEvent = CGEventCreate(NULL);
CGPoint point = CGEventGetLocation(ourEvent);
CFRelease(ourEvent);
x = (int)point.x;
y = (int)point.y;
if (CursorControl == NULL)
return;
const core::position2di& curr = ((CCursorControl *)CursorControl)->getPosition();
if (curr.X != x || curr.Y != y)
{
// In fullscreen mode, events are not sent regularly so rely on polling
irr::SEvent ievent;
ievent.EventType = irr::EET_MOUSE_INPUT_EVENT;
ievent.MouseInput.Event = irr::EMIE_MOUSE_MOVED;
ievent.MouseInput.X = x;
ievent.MouseInput.Y = y;
postEventFromUser(ievent);
}
}
if (CursorControl != NULL)
((CCursorControl *)CursorControl)->updateInternalCursorPosition(x,y);
}
void CIrrDeviceMacOSX::setMouseLocation(int x,int y)
{
NSPoint p;
CGPoint c;
if (Window != NULL)
{
// Irrlicht window exists
p.x = (float) x;
p.y = (float) (DeviceHeight - y);
p = [Window convertBaseToScreen:p];
p.y = ScreenHeight - p.y;
}
else
{
p.x = (float) x;
p.y = (float) y + (ScreenHeight - DeviceHeight);
}
c.x = p.x;
c.y = p.y;
#ifdef __MAC_10_6
/*CGEventSourceRef SourceRef = CGEventSourceCreate(0);
CGEventSourceSetLocalEventsSuppressionInterval(SourceRef, 0);
CFRelease(SourceRef);*/
CGSetLocalEventsSuppressionInterval(0);
#else
CGSetLocalEventsSuppressionInterval(0);
#endif
CGWarpMouseCursorPosition(c);
}
void CIrrDeviceMacOSX::setCursorVisible(bool visible)
{
if (visible)
CGDisplayShowCursor(CGMainDisplayID());
else
CGDisplayHideCursor(CGMainDisplayID());
}
void CIrrDeviceMacOSX::initKeycodes()
{
KeyCodes[kVK_UpArrow] = irr::IRR_KEY_UP;
KeyCodes[kVK_DownArrow] = irr::IRR_KEY_DOWN;
KeyCodes[kVK_LeftArrow] = irr::IRR_KEY_LEFT;
KeyCodes[kVK_RightArrow] = irr::IRR_KEY_RIGHT;
KeyCodes[kVK_F1] = irr::IRR_KEY_F1;
KeyCodes[kVK_F2] = irr::IRR_KEY_F2;
KeyCodes[kVK_F3] = irr::IRR_KEY_F3;
KeyCodes[kVK_F4] = irr::IRR_KEY_F4;
KeyCodes[kVK_F5] = irr::IRR_KEY_F5;
KeyCodes[kVK_F6] = irr::IRR_KEY_F6;
KeyCodes[kVK_F7] = irr::IRR_KEY_F7;
KeyCodes[kVK_F8] = irr::IRR_KEY_F8;
KeyCodes[kVK_F9] = irr::IRR_KEY_F9;
KeyCodes[kVK_F10] = irr::IRR_KEY_F10;
KeyCodes[kVK_F11] = irr::IRR_KEY_F11;
KeyCodes[kVK_F12] = irr::IRR_KEY_F12;
KeyCodes[kVK_F13] = irr::IRR_KEY_F13;
KeyCodes[kVK_F14] = irr::IRR_KEY_F14;
KeyCodes[kVK_F15] = irr::IRR_KEY_F15;
KeyCodes[kVK_F16] = irr::IRR_KEY_F16;
KeyCodes[kVK_F17] = irr::IRR_KEY_F17;
KeyCodes[kVK_F18] = irr::IRR_KEY_F18;
KeyCodes[kVK_F19] = irr::IRR_KEY_F19;
KeyCodes[kVK_F20] = irr::IRR_KEY_F20;
KeyCodes[kVK_Home] = irr::IRR_KEY_HOME;
KeyCodes[kVK_End] = irr::IRR_KEY_END;
KeyCodes[NSInsertFunctionKey] = irr::IRR_KEY_INSERT;
KeyCodes[kVK_ForwardDelete] = irr::IRR_KEY_DELETE;
KeyCodes[kVK_Help] = irr::IRR_KEY_HELP;
KeyCodes[NSSelectFunctionKey] = irr::IRR_KEY_SELECT;
KeyCodes[NSPrintFunctionKey] = irr::IRR_KEY_PRINT;
KeyCodes[NSExecuteFunctionKey] = irr::IRR_KEY_EXECUT;
KeyCodes[NSPrintScreenFunctionKey] = irr::IRR_KEY_SNAPSHOT;
KeyCodes[NSPauseFunctionKey] = irr::IRR_KEY_PAUSE;
KeyCodes[NSScrollLockFunctionKey] = irr::IRR_KEY_SCROLL;
KeyCodes[kVK_Delete] = irr::IRR_KEY_BACK;
KeyCodes[kVK_Tab] = irr::IRR_KEY_TAB;
KeyCodes[kVK_Return] = irr::IRR_KEY_RETURN;
KeyCodes[kVK_Escape] = irr::IRR_KEY_ESCAPE;
KeyCodes[kVK_Control] = irr::IRR_KEY_CONTROL;
KeyCodes[kVK_RightControl] = irr::IRR_KEY_RCONTROL;
KeyCodes[kVK_Command] = irr::IRR_KEY_MENU;
KeyCodes[kVK_Shift] = irr::IRR_KEY_SHIFT;
KeyCodes[kVK_RightShift] = irr::IRR_KEY_RSHIFT;
KeyCodes[kVK_Space] = irr::IRR_KEY_SPACE;
KeyCodes[kVK_ANSI_A] = irr::IRR_KEY_A;
KeyCodes[kVK_ANSI_B] = irr::IRR_KEY_B;
KeyCodes[kVK_ANSI_C] = irr::IRR_KEY_C;
KeyCodes[kVK_ANSI_D] = irr::IRR_KEY_D;
KeyCodes[kVK_ANSI_E] = irr::IRR_KEY_E;
KeyCodes[kVK_ANSI_F] = irr::IRR_KEY_F;
KeyCodes[kVK_ANSI_G] = irr::IRR_KEY_G;
KeyCodes[kVK_ANSI_H] = irr::IRR_KEY_H;
KeyCodes[kVK_ANSI_I] = irr::IRR_KEY_I;
KeyCodes[kVK_ANSI_J] = irr::IRR_KEY_J;
KeyCodes[kVK_ANSI_K] = irr::IRR_KEY_K;
KeyCodes[kVK_ANSI_L] = irr::IRR_KEY_L;
KeyCodes[kVK_ANSI_M] = irr::IRR_KEY_M;
KeyCodes[kVK_ANSI_N] = irr::IRR_KEY_N;
KeyCodes[kVK_ANSI_O] = irr::IRR_KEY_O;
KeyCodes[kVK_ANSI_P] = irr::IRR_KEY_P;
KeyCodes[kVK_ANSI_Q] = irr::IRR_KEY_Q;
KeyCodes[kVK_ANSI_R] = irr::IRR_KEY_R;
KeyCodes[kVK_ANSI_S] = irr::IRR_KEY_S;
KeyCodes[kVK_ANSI_T] = irr::IRR_KEY_T;
KeyCodes[kVK_ANSI_U] = irr::IRR_KEY_U;
KeyCodes[kVK_ANSI_V] = irr::IRR_KEY_V;
KeyCodes[kVK_ANSI_W] = irr::IRR_KEY_W;
KeyCodes[kVK_ANSI_X] = irr::IRR_KEY_X;
KeyCodes[kVK_ANSI_Y] = irr::IRR_KEY_Y;
KeyCodes[kVK_ANSI_Z] = irr::IRR_KEY_Z;
KeyCodes[kVK_ANSI_0] = irr::IRR_KEY_0;
KeyCodes[kVK_ANSI_1] = irr::IRR_KEY_1;
KeyCodes[kVK_ANSI_2] = irr::IRR_KEY_2;
KeyCodes[kVK_ANSI_3] = irr::IRR_KEY_3;
KeyCodes[kVK_ANSI_4] = irr::IRR_KEY_4;
KeyCodes[kVK_ANSI_5] = irr::IRR_KEY_5;
KeyCodes[kVK_ANSI_6] = irr::IRR_KEY_6;
KeyCodes[kVK_ANSI_7] = irr::IRR_KEY_7;
KeyCodes[kVK_ANSI_8] = irr::IRR_KEY_8;
KeyCodes[kVK_ANSI_9] = irr::IRR_KEY_9;
KeyCodes[kVK_ANSI_Slash] = irr::IRR_KEY_DIVIDE;
KeyCodes[kVK_ANSI_Comma] = irr::IRR_KEY_COMMA;
KeyCodes[kVK_ANSI_Period] = irr::IRR_KEY_PERIOD;
KeyCodes[kVK_PageUp] = irr::IRR_KEY_PRIOR;
KeyCodes[kVK_PageDown] = irr::IRR_KEY_NEXT;
KeyCodes[kVK_ANSI_Keypad0] = irr::IRR_KEY_NUMPAD0;
KeyCodes[kVK_ANSI_Keypad1] = irr::IRR_KEY_NUMPAD1;
KeyCodes[kVK_ANSI_Keypad2] = irr::IRR_KEY_NUMPAD2;
KeyCodes[kVK_ANSI_Keypad3] = irr::IRR_KEY_NUMPAD3;
KeyCodes[kVK_ANSI_Keypad4] = irr::IRR_KEY_NUMPAD4;
KeyCodes[kVK_ANSI_Keypad5] = irr::IRR_KEY_NUMPAD5;
KeyCodes[kVK_ANSI_Keypad6] = irr::IRR_KEY_NUMPAD6;
KeyCodes[kVK_ANSI_Keypad7] = irr::IRR_KEY_NUMPAD7;
KeyCodes[kVK_ANSI_Keypad8] = irr::IRR_KEY_NUMPAD8;
KeyCodes[kVK_ANSI_Keypad9] = irr::IRR_KEY_NUMPAD9;
KeyCodes[kVK_ANSI_KeypadDecimal] = irr::IRR_KEY_DECIMAL;
KeyCodes[kVK_ANSI_KeypadMultiply] = irr::IRR_KEY_MULTIPLY;
KeyCodes[kVK_ANSI_KeypadPlus] = irr::IRR_KEY_PLUS;
KeyCodes[kVK_ANSI_KeypadClear] = irr::IRR_KEY_OEM_CLEAR;
KeyCodes[kVK_ANSI_KeypadDivide] = irr::IRR_KEY_DIVIDE;
KeyCodes[kVK_ANSI_KeypadEnter] = irr::IRR_KEY_RETURN;
KeyCodes[kVK_ANSI_KeypadMinus] = irr::IRR_KEY_SUBTRACT;
}
//! Sets if the window should be resizable in windowed mode.
void CIrrDeviceMacOSX::setResizable(bool resize)
{
IsResizable = resize;
#if 0
if (resize)
[Window setStyleMask:NSTitledWindowMask|NSClosableWindowMask|NSMiniaturizableWindowMask|NSResizableWindowMask];
else
[Window setStyleMask:NSTitledWindowMask|NSClosableWindowMask];
#endif
}
bool CIrrDeviceMacOSX::isResizable() const
{
return IsResizable;
}
void CIrrDeviceMacOSX::minimizeWindow()
{
if (Window != NULL)
[Window miniaturize:[NSApp self]];
}
//! Maximizes the window if possible.
void CIrrDeviceMacOSX::maximizeWindow()
{
// todo: implement
}
//! Restore the window to normal size if possible.
void CIrrDeviceMacOSX::restoreWindow()
{
[Window deminiaturize:[NSApp self]];
}
//! Move window to requested position
bool CIrrDeviceMacOSX::moveWindow(int x, int y)
{
return false;
}
//! Get current window position.
bool CIrrDeviceMacOSX::getWindowPosition(int* x, int* y)
{
return false;
}
bool CIrrDeviceMacOSX::present(video::IImage* surface, void* windowId, core::rect<s32>* src )
{
// todo: implement window ID and src rectangle
if (!surface)
return false;
if (SoftwareRendererType > 0)
{
const u32 colorSamples=3;
// do we need to change the size?
const bool updateSize = !SoftwareDriverTarget ||
s32([SoftwareDriverTarget size].width) != surface->getDimension().Width ||
s32([SoftwareDriverTarget size].height) != surface->getDimension().Height;
NSRect areaRect = NSMakeRect(0.0, 0.0, surface->getDimension().Width, surface->getDimension().Height);
const u32 destPitch = (colorSamples * areaRect.size.width);
// create / update the target
if (updateSize)
{
[SoftwareDriverTarget release];
// allocate target for IImage
SoftwareDriverTarget = [[NSBitmapImageRep alloc]
initWithBitmapDataPlanes: nil
pixelsWide: areaRect.size.width
pixelsHigh: areaRect.size.height
bitsPerSample: 8
samplesPerPixel: colorSamples
hasAlpha: NO
isPlanar: NO
colorSpaceName: NSCalibratedRGBColorSpace
bytesPerRow: destPitch
bitsPerPixel: 8*colorSamples];
}
if (SoftwareDriverTarget==nil)
return false;
// get pointer to image data
unsigned char* imgData = (unsigned char*)surface->lock();
u8* srcdata = reinterpret_cast<u8*>(imgData);
u8* destData = reinterpret_cast<u8*>([SoftwareDriverTarget bitmapData]);
const u32 srcheight = core::min_(surface->getDimension().Height, (u32)areaRect.size.height);
const u32 srcPitch = surface->getPitch();
const u32 minWidth = core::min_(surface->getDimension().Width, (u32)areaRect.size.width);
for (u32 y=0; y!=srcheight; ++y)
{
if(SoftwareRendererType == 2)
{
if (surface->getColorFormat() == video::ECF_A8R8G8B8)
video::CColorConverter::convert_A8R8G8B8toB8G8R8(srcdata, minWidth, destData);
else if (surface->getColorFormat() == video::ECF_A1R5G5B5)
video::CColorConverter::convert_A1R5G5B5toB8G8R8(srcdata, minWidth, destData);
else
video::CColorConverter::convert_viaFormat(srcdata, surface->getColorFormat(), minWidth, destData, video::ECF_R8G8B8);
}
else
{
if (surface->getColorFormat() == video::ECF_A8R8G8B8)
video::CColorConverter::convert_A8R8G8B8toR8G8B8(srcdata, minWidth, destData);
else if (surface->getColorFormat() == video::ECF_A1R5G5B5)
video::CColorConverter::convert_A1R5G5B5toR8G8B8(srcdata, minWidth, destData);
else
video::CColorConverter::convert_viaFormat(srcdata, surface->getColorFormat(), minWidth, destData, video::ECF_R8G8B8);
}
srcdata += srcPitch;
destData += destPitch;
}
// unlock the data
surface->unlock();
// todo: draw properly into a sub-view
[SoftwareDriverTarget draw];
}
return false;
}
#if defined (_IRR_COMPILE_WITH_JOYSTICK_EVENTS_)
static void joystickRemovalCallback(void * target,
IOReturn result, void * refcon, void * sender)
{
JoystickInfo *joy = (JoystickInfo *) refcon;
joy->removed = 1;
}
#endif // _IRR_COMPILE_WITH_JOYSTICK_EVENTS_
bool CIrrDeviceMacOSX::activateJoysticks(core::array<SJoystickInfo> & joystickInfo)
{
#if defined (_IRR_COMPILE_WITH_JOYSTICK_EVENTS_)
ActiveJoysticks.clear();
joystickInfo.clear();
io_object_t hidObject = 0;
io_iterator_t hidIterator = 0;
IOReturn result = kIOReturnSuccess;
mach_port_t masterPort = 0;
CFMutableDictionaryRef hidDictionaryRef = NULL;
result = IOMasterPort (bootstrap_port, &masterPort);
if (kIOReturnSuccess != result)
{
os::Printer::log("initialiseJoysticks IOMasterPort failed", ELL_ERROR);
return false;
}
hidDictionaryRef = IOServiceMatching (kIOHIDDeviceKey);
if (!hidDictionaryRef)
{
os::Printer::log("initialiseJoysticks IOServiceMatching failed", ELL_ERROR);
return false;
}
result = IOServiceGetMatchingServices (masterPort, hidDictionaryRef, &hidIterator);
if (kIOReturnSuccess != result)
{
os::Printer::log("initialiseJoysticks IOServiceGetMatchingServices failed", ELL_ERROR);
return false;
}
//no joysticks just return
if (!hidIterator)
return false;
u32 jindex = 0u;
while ((hidObject = IOIteratorNext (hidIterator)))
{
JoystickInfo info;
// get dictionary for HID properties
CFMutableDictionaryRef hidProperties = 0;
kern_return_t kern_result = IORegistryEntryCreateCFProperties (hidObject, &hidProperties, kCFAllocatorDefault, kNilOptions);
if ((kern_result == KERN_SUCCESS) && hidProperties)
{
HRESULT plugInResult = S_OK;
SInt32 score = 0;
IOCFPlugInInterface ** ppPlugInInterface = NULL;
result = IOCreatePlugInInterfaceForService (hidObject, kIOHIDDeviceUserClientTypeID,
kIOCFPlugInInterfaceID, &ppPlugInInterface, &score);
if (kIOReturnSuccess == result)
{
plugInResult = (*ppPlugInInterface)->QueryInterface (ppPlugInInterface,
CFUUIDGetUUIDBytes (kIOHIDDeviceInterfaceID), (void **) &(info.interface));
if (plugInResult != S_OK)
os::Printer::log("initialiseJoysticks query HID class device interface failed", ELL_ERROR);
(*ppPlugInInterface)->Release(ppPlugInInterface);
}
else
continue;
if (info.interface != NULL)
{
result = (*(info.interface))->open (info.interface, 0);
if (result == kIOReturnSuccess)
{
(*(info.interface))->setRemovalCallback (info.interface, joystickRemovalCallback, &info, &info);
getJoystickDeviceInfo(hidObject, hidProperties, &info);
// get elements
CFTypeRef refElementTop = CFDictionaryGetValue (hidProperties, CFSTR(kIOHIDElementKey));
if (refElementTop)
{
CFTypeID type = CFGetTypeID (refElementTop);
if (type == CFArrayGetTypeID())
{
CFRange range = {0, CFArrayGetCount ((CFArrayRef)refElementTop)};
info.numActiveJoysticks = ActiveJoysticks.size();
CFArrayApplyFunction ((CFArrayRef)refElementTop, range, getJoystickComponentArrayHandler, &info);
}
}
}
else
{
CFRelease (hidProperties);
os::Printer::log("initialiseJoysticks Open interface failed", ELL_ERROR);
continue;
}
CFRelease (hidProperties);
result = IOObjectRelease (hidObject);
if ( (info.usagePage != kHIDPage_GenericDesktop) ||
((info.usage != kHIDUsage_GD_Joystick &&
info.usage != kHIDUsage_GD_GamePad &&
info.usage != kHIDUsage_GD_MultiAxisController)) )
{
closeJoystickDevice (&info);
continue;
}
for (u32 i = 0; i < 6; ++i)
info.persistentData.JoystickEvent.Axis[i] = 0;
ActiveJoysticks.push_back(info);
SJoystickInfo returnInfo;
returnInfo.Joystick = jindex;
returnInfo.HasGenericName = false;
returnInfo.Axes = info.axes;
//returnInfo.Hats = info.hats;
returnInfo.Buttons = info.buttons;
returnInfo.Name = info.joystickName;
returnInfo.PovHat = SJoystickInfo::POV_HAT_UNKNOWN;
++ jindex;
//if (info.hatComp.size())
// returnInfo.PovHat = SJoystickInfo::POV_HAT_PRESENT;
//else
// returnInfo.PovHat = SJoystickInfo::POV_HAT_ABSENT;
joystickInfo.push_back(returnInfo);
}
}
else
{
continue;
}
}
result = IOObjectRelease (hidIterator);
return true;
#endif // _IRR_COMPILE_WITH_JOYSTICK_EVENTS_
return false;
}
void CIrrDeviceMacOSX::pollJoysticks()
{
#if defined (_IRR_COMPILE_WITH_JOYSTICK_EVENTS_)
if(0 == ActiveJoysticks.size())
return;
u32 joystick;
for (joystick = 0; joystick < ActiveJoysticks.size(); ++joystick)
{
if (ActiveJoysticks[joystick].removed)
continue;
bool found = false;
ActiveJoysticks[joystick].persistentData.JoystickEvent.Joystick = joystick;
if (ActiveJoysticks[joystick].interface)
{
for (u32 n = 0; n < ActiveJoysticks[joystick].axisComp.size(); n++)
{
IOReturn result = kIOReturnSuccess;
IOHIDEventStruct hidEvent;
hidEvent.value = 0;
result = (*(ActiveJoysticks[joystick].interface))->getElementValue(ActiveJoysticks[joystick].interface, ActiveJoysticks[joystick].axisComp[n].cookie, &hidEvent);
if (kIOReturnSuccess == result)
{
const f32 min = -32768.0f;
const f32 max = 32767.0f;
const f32 deviceScale = max - min;
const f32 readScale = (f32)ActiveJoysticks[joystick].axisComp[n].maxRead - (f32)ActiveJoysticks[joystick].axisComp[n].minRead;
if (hidEvent.value < ActiveJoysticks[joystick].axisComp[n].minRead)
ActiveJoysticks[joystick].axisComp[n].minRead = hidEvent.value;
if (hidEvent.value > ActiveJoysticks[joystick].axisComp[n].maxRead)
ActiveJoysticks[joystick].axisComp[n].maxRead = hidEvent.value;
if (readScale != 0.0f)
hidEvent.value = (int)(((f32)((f32)hidEvent.value - (f32)ActiveJoysticks[joystick].axisComp[n].minRead) * deviceScale / readScale) + min);
if (ActiveJoysticks[joystick].persistentData.JoystickEvent.Axis[n] != (s16)hidEvent.value)
found = true;
ActiveJoysticks[joystick].persistentData.JoystickEvent.Axis[n] = (s16)hidEvent.value;
}
}//axis check
for (u32 n = 0; n < ActiveJoysticks[joystick].buttonComp.size(); n++)
{
IOReturn result = kIOReturnSuccess;
IOHIDEventStruct hidEvent;
hidEvent.value = 0;
result = (*(ActiveJoysticks[joystick].interface))->getElementValue(ActiveJoysticks[joystick].interface, ActiveJoysticks[joystick].buttonComp[n].cookie, &hidEvent);
if (kIOReturnSuccess == result)
{
u32 ButtonStates = 0;
if (hidEvent.value && !((ActiveJoysticks[joystick].persistentData.JoystickEvent.ButtonStates & (1 << n)) ? true : false) )
found = true;
else if (!hidEvent.value && ((ActiveJoysticks[joystick].persistentData.JoystickEvent.ButtonStates & (1 << n)) ? true : false))
found = true;
if (hidEvent.value)
ActiveJoysticks[joystick].persistentData.JoystickEvent.ButtonStates |= (1 << n);
else
ActiveJoysticks[joystick].persistentData.JoystickEvent.ButtonStates &= ~(1 << n);
}
}//button check
//still ToDo..will be done soon :)
/*
for (u32 n = 0; n < ActiveJoysticks[joystick].hatComp.size(); n++)
{
IOReturn result = kIOReturnSuccess;
IOHIDEventStruct hidEvent;
hidEvent.value = 0;
result = (*(ActiveJoysticks[joystick].interface))->getElementValue(ActiveJoysticks[joystick].interface, ActiveJoysticks[joystick].hatComp[n].cookie, &hidEvent);
if (kIOReturnSuccess == result)
{
if (ActiveJoysticks[joystick].persistentData.JoystickEvent.POV != hidEvent.value)
found = true;
ActiveJoysticks[joystick].persistentData.JoystickEvent.POV = hidEvent.value;
}
}//hat check
*/
}
if (found)
postEventFromUser(ActiveJoysticks[joystick].persistentData);
}
#endif // _IRR_COMPILE_WITH_JOYSTICK_EVENTS_
}
video::IVideoModeList* CIrrDeviceMacOSX::getVideoModeList()
{
if (!VideoModeList.getVideoModeCount())
{
CGDirectDisplayID display;
display = CGMainDisplayID();
#ifdef __MAC_10_6
CFArrayRef Modes = CGDisplayCopyAllDisplayModes(display, NULL);
for(int i = 0; i < CFArrayGetCount(Modes); ++i)
{
CGDisplayModeRef CurrentMode = (CGDisplayModeRef)CFArrayGetValueAtIndex(Modes, i);
u8 Depth = 0;
CFStringRef pixEnc = CGDisplayModeCopyPixelEncoding(CurrentMode);
if(CFStringCompare(pixEnc, CFSTR(IO32BitDirectPixels), kCFCompareCaseInsensitive) == kCFCompareEqualTo)
Depth = 32;
else
if(CFStringCompare(pixEnc, CFSTR(IO16BitDirectPixels), kCFCompareCaseInsensitive) == kCFCompareEqualTo)
Depth = 16;
else
if(CFStringCompare(pixEnc, CFSTR(IO8BitIndexedPixels), kCFCompareCaseInsensitive) == kCFCompareEqualTo)
Depth = 8;
if(Depth)
{
unsigned int Width = CGDisplayModeGetWidth(CurrentMode);
unsigned int Height = CGDisplayModeGetHeight(CurrentMode);
VideoModeList.addMode(core::dimension2d<u32>(Width, Height), Depth);
}
}
#else
CFArrayRef availableModes = CGDisplayAvailableModes(display);
unsigned int numberOfAvailableModes = CFArrayGetCount(availableModes);
for (u32 i= 0; i<numberOfAvailableModes; ++i)
{
// look at each mode in the available list
CFDictionaryRef mode = (CFDictionaryRef)CFArrayGetValueAtIndex(availableModes, i);
long bitsPerPixel = GetDictionaryLong(mode, kCGDisplayBitsPerPixel);
Boolean safeForHardware = GetDictionaryBoolean(mode, kCGDisplayModeIsSafeForHardware);
Boolean stretched = GetDictionaryBoolean(mode, kCGDisplayModeIsStretched);
if (!safeForHardware)
continue;
long width = GetDictionaryLong(mode, kCGDisplayWidth);
long height = GetDictionaryLong(mode, kCGDisplayHeight);
// long refresh = GetDictionaryLong((mode), kCGDisplayRefreshRate);
VideoModeList.addMode(core::dimension2d<u32>(width, height),
bitsPerPixel);
}
#endif
}
return &VideoModeList;
}
} // end namespace
#endif // _IRR_COMPILE_WITH_OSX_DEVICE_