Requirements: Mac OS X 10.8 or later and the iOS 7+ SDK.
Instructions:
There are three build targets:
If everything goes fine, you should see a build/ios directory, inside there‘s two directories “lib” and “include”. “include” contains a copy of the SDL headers that you’ll need for your project, make sure to configure XCode to look for headers there. “lib” contains find two files, libSDL2.a and libSDL2main.a, you have to add both to your XCode project. These libraries contain three architectures in them, armv6 for legacy devices, armv7, and i386 (for the simulator). By default, iosbuild.sh will autodetect the SDK version you have installed using xcodebuild -showsdks, and build for iOS >= 3.0, you can override this behaviour by setting the MIN_OS_VERSION variable, ie:
MIN_OS_VERSION=4.2 ./iosbuild.sh
FIXME: This needs to be updated for the latest methods
Here is the easiest method:
Here is a more manual method:
Window and display mode sizes in SDL are in “screen coordinates” (or “points”, in Apple's terminology) rather than in pixels. On iOS this means that a window created on an iPhone 6 will have a size in screen coordinates of 375 x 667, rather than a size in pixels of 750 x 1334. All iOS apps are expected to size their content based on screen coordinates / points rather than pixels, as this allows different iOS devices to have different pixel densities (Retina versus non-Retina screens, etc.) without apps caring too much.
By default SDL will not use the full pixel density of the screen on Retina/high-dpi capable devices. Use the SDL_WINDOW_ALLOW_HIGHDPI flag when creating your window to enable high-dpi support.
When high-dpi support is enabled, SDL_GetWindowSize() and display mode sizes will still be in “screen coordinates” rather than pixels, but the window will have a much greater pixel density when the device supports it, and the SDL_GL_GetDrawableSize() or SDL_GetRendererOutputSize() functions (depending on whether raw OpenGL or the SDL_Render API is used) can be queried to determine the size in pixels of the drawable screen framebuffer.
Some OpenGL ES functions such as glViewport expect sizes in pixels rather than sizes in screen coordinates. When doing 2D rendering with OpenGL ES, an orthographic projection matrix using the size in screen coordinates (SDL_GetWindowSize()) can be used in order to display content at the same scale no matter whether a Retina device is used or not.
On iOS the application goes through a fixed life cycle and you will get notifications of state changes via application events. When these events are delivered you must handle them in an event callback because the OS may not give you any processing time after the events are delivered.
e.g.
int HandleAppEvents(void *userdata, SDL_Event *event)
{
switch (event->type)
{
case SDL_APP_TERMINATING:
/* Terminate the app.
Shut everything down before returning from this function.
*/
return 0;
case SDL_APP_LOWMEMORY:
/* You will get this when your app is paused and iOS wants more memory.
Release as much memory as possible.
*/
return 0;
case SDL_APP_WILLENTERBACKGROUND:
/* Prepare your app to go into the background. Stop loops, etc.
This gets called when the user hits the home button, or gets a call.
*/
return 0;
case SDL_APP_DIDENTERBACKGROUND:
/* This will get called if the user accepted whatever sent your app to the background.
If the user got a phone call and canceled it, you'll instead get an SDL_APP_DIDENTERFOREGROUND event and restart your loops.
When you get this, you have 5 seconds to save all your state or the app will be terminated.
Your app is NOT active at this point.
*/
return 0;
case SDL_APP_WILLENTERFOREGROUND:
/* This call happens when your app is coming back to the foreground.
Restore all your state here.
*/
return 0;
case SDL_APP_DIDENTERFOREGROUND:
/* Restart your loops here.
Your app is interactive and getting CPU again.
*/
return 0;
default:
/* No special processing, add it to the event queue */
return 1;
}
}
int main(int argc, char *argv[])
{
SDL_SetEventFilter(HandleAppEvents, NULL);
... run your main loop
return 0;
}
SDL for iPhone supports polling the built in accelerometer as a joystick device. For an example on how to do this, see the accelerometer.c in the demos directory.
The main thing to note when using the accelerometer with SDL is that while the iPhone natively reports accelerometer as floating point values in units of g-force, SDL_JoystickGetAxis() reports joystick values as signed integers. Hence, in order to convert between the two, some clamping and scaling is necessary on the part of the iPhone SDL joystick driver. To convert SDL_JoystickGetAxis() reported values BACK to units of g-force, simply multiply the values by SDL_IPHONE_MAX_GFORCE / 0x7FFF.
Your SDL application for iOS uses OpenGL ES for video by default.
OpenGL ES for iOS supports several display pixel formats, such as RGBA8 and RGB565, which provide a 32 bit and 16 bit color buffer respectively. By default, the implementation uses RGB565, but you may use RGBA8 by setting each color component to 8 bits in SDL_GL_SetAttribute().
If your application doesn‘t use OpenGL’s depth buffer, you may find significant performance improvement by setting SDL_GL_DEPTH_SIZE to 0.
Finally, if your application completely redraws the screen each frame, you may find significant performance improvement by setting the attribute SDL_GL_RETAINED_BACKING to 0.
OpenGL ES on iOS doesn't use the traditional system-framebuffer setup provided in other operating systems. Special care must be taken because of this:
The above objects can be obtained via SDL_GetWindowWMInfo() (in SDL_syswm.h).
The SDL keyboard API has been extended to support on-screen keyboards:
void SDL_StartTextInput() -- enables text events and reveals the onscreen keyboard.
void SDL_StopTextInput() -- disables text events and hides the onscreen keyboard.
SDL_bool SDL_IsTextInputActive() -- returns whether or not text events are enabled (and the onscreen keyboard is visible)
Each application installed on iPhone resides in a sandbox which includes its own Application Home directory. Your application may not access files outside this directory.
Once your application is installed its directory tree looks like:
MySDLApp Home/
MySDLApp.app
Documents/
Library/
Preferences/
tmp/
When your SDL based iPhone application starts up, it sets the working directory to the main bundle (MySDLApp Home/MySDLApp.app), where your application resources are stored. You cannot write to this directory. Instead, I advise you to write document files to “../Documents/” and preferences to “../Library/Preferences”.
More information on this subject is available here: http://developer.apple.com/library/ios/#documentation/iPhone/Conceptual/iPhoneOSProgrammingGuide/Introduction/Introduction.html
Windows: Full-size, single window applications only. You cannot create multi-window SDL applications for iPhone OS. The application window will fill the display, though you have the option of turning on or off the menu-bar (pass SDL_CreateWindow() the flag SDL_WINDOW_BORDERLESS).
Textures: The optimal texture formats on iOS are SDL_PIXELFORMAT_ABGR8888, SDL_PIXELFORMAT_ABGR8888, SDL_PIXELFORMAT_BGR888, and SDL_PIXELFORMAT_RGB24 pixel formats.
Loading Shared Objects: This is disabled by default since it seems to break the terms of the iOS SDK agreement for iOS versions prior to iOS 8. It can be re-enabled in SDL_config_iphoneos.h.
SDL_JOYSTICK_HIDAPI is disabled by default. It can give you access to a lot more game controller devices, but it requires permission from the user before your app will be able to talk to the Bluetooth hardware. “Made For iOS” branded controllers do not need this as we don't have to speak to them directly with raw bluetooth, so many apps can live without this.
You'll need to link with CoreBluetooth.framework and add something like this to your Info.plist:
NSBluetoothPeripheralUsageDescription MyApp would like to remain connected to nearby bluetooth Game Controllers and Game Pads even when you're not using the app.
Game Center integration might require that you break up your main loop in order to yield control back to the system. In other words, instead of running an endless main loop, you run each frame in a callback function, using:
int SDL_iPhoneSetAnimationCallback(SDL_Window * window, int interval, void (*callback)(void*), void *callbackParam);
This will set up the given function to be called back on the animation callback, and then you have to return from main() to let the Cocoa event loop run.
e.g.
extern "C"
void ShowFrame(void*)
{
... do event handling, frame logic and rendering ...
}
int main(int argc, char *argv[])
{
... initialize game ...
#if __IPHONEOS__
// Initialize the Game Center for scoring and matchmaking
InitGameCenter();
// Set up the game to run in the window animation callback on iOS
// so that Game Center and so forth works correctly.
SDL_iPhoneSetAnimationCallback(window, 1, ShowFrame, NULL);
#else
while ( running ) {
ShowFrame(0);
DelayFrame();
}
#endif
return 0;
}
SDL supports deploying to older versions of iOS than are supported by the latest version of Xcode, all the way back to iOS 6.1
In order to do that you need to download an older version of Xcode: https://developer.apple.com/download/more/?name=Xcode
Open the package contents of the older Xcode and your newer version of Xcode and copy over the folders in Xcode.app/Contents/Developer/Platforms/iPhoneOS.platform/DeviceSupport
Then open the file Xcode.app/Contents/Developer/Platforms/iPhoneOS.platform/Developer/SDKs/iPhoneOS.sdk/SDKSettings.plist and add the versions of iOS you want to deploy to the key Root/DefaultProperties/DEPLOYMENT_TARGET_SUGGESTED_VALUES
Open your project and set your deployment target to the desired version of iOS
Finally, remove GameController from the list of frameworks linked by your application and edit the build settings for “Other Linker Flags” and add -weak_framework GameController