Apple\'s Grand Central Dispatch (GCD) is great, but only works on iOS 4.0 or greater. Apple\'s documentation says, \"[A] serialized operation queue does not offer quite the
Seems like people are going to a lot of effort to rewrite NSRunloop. Per the NSRunloop documentation:
Your application cannot either create or explicitly manage NSRunLoop objects. Each NSThread object, including the application’s main thread, has an NSRunLoop object automatically created for it as needed.
So surely the trivial answer would be, to create a usable queue:
- (void)startRunLoop:(id)someObject
{
NSAutoreleasePool *pool = [[NSAutoreleasePool alloc] init];
[[NSRunLoop currentRunLoop] run];
[pool release];
}
...
NSThread *serialDispatchThread = [[NSThread alloc]
initWithTarget:self
selector:@selector(startRunLoop:)
object:nil];
[serialDispatchThread start];
To add a task to the queue:
[object
performSelector:@selector(whatever:)
onThread:serialDispatchThread
withObject:someArgument
waitUntilDone:NO];
Per the Threading Programming Guide section on Run Loops:
Cocoa defines a custom input source that allows you to perform a selector on any thread. ... perform selector requests are serialized on the target thread, alleviating many of the synchronization problems that might occur with multiple methods being run on one thread.
So you've got an explicitly serial queue. Of course, mine isn't fantastically written because I've told the run loop to run forever, and you may prefer one you can terminate later, but those are easy modifications to make.
There are things NSOperationQueue documentation writer forgot to mention, making such implementation seem trivial when in fact it's not.
Setting the maximum concurrent operation count to 1 is guaranteed to be serial only if NSOperations are added to the queue from same thread.
I'm using another option because it just works.
Add NSOperations from different threads but use NSCondition to manage queuing. startOperations can (and should, you don't want to block main thread with locks) be called with performSelectorOnBackgroundThread...
startOperations method represents single job that consists of one or more NSOperations.
- (void)startOperations
{
NSAutoreleasePool *pool = [[NSAutoreleasePool alloc] init];
[[AppDelegate condition] lock];
while (![[[AppDelegate queue] operations] count] <= 0)
{
[[AppDelegate condition] wait];
}
NSOperation *newOperation = [alloc, init]....;
[[AppDelegate queue] addOperation:newOperation];
[[AppDelegate queue] waitUntilAllOperationsAreFinished]; // Don't forget this!
NSOperation *newOperation1 = [alloc, init]....;
[[AppDelegate queue] addOperation:newOperation1];
[[AppDelegate queue] waitUntilAllOperationsAreFinished]; // Don't forget this!
NSOperation *newOperation2 = [alloc, init]....;
[[AppDelegate queue] addOperation:newOperation2];
[[AppDelegate queue] waitUntilAllOperationsAreFinished]; // Don't forget this!
// Add whatever number operations you need for this single job
[[AppDelegate queue] signal];
[[AppDelegate queue] unlock];
[NotifyDelegate orWhatever]
[pool drain];
}
That's it!
you can simulate it using NSOperationQueue
, then just set the task count to one.
EDIT
-- oops, should have read more carefully. the fifo solution follows:
i can't think of a way that the majority of ios devs would use in your situation.
i'm not afraid of writing threaded programs, so here is one solution:
main
. only one may exist at a time.the NSOperation subclass pulls the workers from the fifo worker queue until the fifo worker queue is exhausted.
when the fifo work queue has workers and no active child operation, it creates a child operation, adds it to its operation queue.
there are a few pitfalls if you aren't comfortable writing threaded programs -- for this reason, this solution is not ideal for everybody, but this solution would not take very long to write if you are already comfortable using all the technologies required.
good luck
If the processing is in the background anyway, do you really need it to be strictly in-order? If you do, you can achieve the same effect simply by setting up your dependencies so 1 depends on 0, 2 on 1, 3 on 2, etc. The operation queue is then forced to handle them in order. Set the maximum concurrent operation count to 1, and the queue is also guaranteed to be serial.
How about this PseudoSerialQueue? It is a minimal implementation like the Dispatch Serial Queue.
#import <Foundation/Foundation.h>
@interface PseudoTask : NSObject
{
id target_;
SEL selector_;
id queue_;
}
@property (nonatomic, readonly) id target;
- (id)initWithTarget:(id)target selector:(SEL)selector queue:(id)queue;
- (void)exec;
@end
@implementation PseudoTask
@synthesize target=target_;
- (id)initWithTarget:(id)target selector:(SEL)selector queue:(id)queue;
{
self = [super init];
if (self) {
target_ = [target retain];
selector_ = selector;
queue_ = [queue retain];
}
return self;
}
- (void)exec
{
[target_ performSelector:selector_];
}
- (void)dealloc
{
[target_ release];
[queue_ release];
}
@end
@interface PseudoSerialQueue : NSObject
{
NSCondition *condition_;
NSMutableArray *array_;
NSThread *thread_;
}
- (void)addTask:(id)target selector:(SEL)selector;
@end
@implementation PseudoSerialQueue
- (id)init
{
self = [super init];
if (self) {
array_ = [[NSMutableArray alloc] init];
condition_ = [[NSCondition alloc] init];
thread_ = [[NSThread alloc]
initWithTarget:self selector:@selector(execQueue) object:nil];
[thread_ start];
}
return self;
}
- (void)addTask:(id)target selector:(SEL)selector
{
[condition_ lock];
PseudoTask *task = [[PseudoTask alloc]
initWithTarget:target selector:selector queue:self];
[array_ addObject:task];
[condition_ signal];
[condition_ unlock];
}
- (void)quit
{
[self addTask:nil selector:nil];
}
- (void)execQueue
{
for (;;) {
NSAutoreleasePool *pool = [[NSAutoreleasePool alloc] init];
[condition_ lock];
while (array_.count == 0)
[condition_ wait];
PseudoTask *task = [array_ objectAtIndex:0];
[array_ removeObjectAtIndex:0];
[condition_ unlock];
if (!task.target) {
[pool drain];
break;
}
[task exec];
[task release];
[pool drain];
}
}
- (void)dealloc
{
[array_ release];
[condition_ release];
}
@end
How to use:
PseudoSerialQueue *q = [[[PseudoSerialQueue alloc] init] autorelease];
[q addTask:self selector:@selector(test0)];
[q addTask:self selector:@selector(test1)];
[q addTask:self selector:@selector(test2)];
[q quit];