Пример #1
0
        public MTAudioProcessingTap(MTAudioProcessingTapCallbacks callbacks, MTAudioProcessingTapCreationFlags flags)
        {
            if (callbacks == null)
            {
                throw new ArgumentNullException("callbacks");
            }

            const MTAudioProcessingTapCreationFlags all_flags = MTAudioProcessingTapCreationFlags.PreEffects | MTAudioProcessingTapCreationFlags.PostEffects;

            if ((flags & all_flags) == all_flags)
            {
                throw new ArgumentException("Only one effect type can be set");
            }

            this.callbacks = callbacks;

            var c = new Callbacks();

            unsafe {
                if (callbacks.Initialize != null)
                {
                    c.init = InitializeProxy;
                }
                if (callbacks.Finalize != null)
                {
                    c.finalize = FinalizeProxy;
                }
                if (callbacks.Prepare != null)
                {
                    c.prepare = PrepareProxy;
                }
                if (callbacks.Unprepare != null)
                {
                    c.unprepare = UnprepareProxy;
                }

                c.process = ProcessProxy;
            }

            // a GCHandle is needed because we do not have an handle before calling MTAudioProcessingTapCreate
            // and that will call the InitializeProxy. So using this (short-lived) GCHandle allow us to find back the
            // original managed instance
            gch          = GCHandle.Alloc(this);
            c.clientInfo = (IntPtr)gch;

            var res = MTAudioProcessingTapCreate(IntPtr.Zero, ref c, flags, out handle);

            // we won't need the GCHandle after the Create call
            gch.Free();

            if (res != 0)
            {
                throw new ArgumentException(res.ToString());
            }

            lock (handles)
                handles [handle] = this;
        }
Пример #2
0
 extern static /* OSStatus */ MTAudioProcessingTapError MTAudioProcessingTapCreate(
     /* CFAllocatorRef*/ IntPtr allocator,
     /* const MTAudioProcessingTapCallbacks* */ ref Callbacks callbacks,
     MTAudioProcessingTapCreationFlags flags,
     /* MTAudioProcessingTapRef* */ out IntPtr tapOut);
Пример #3
0
		public MTAudioProcessingTap (MTAudioProcessingTapCallbacks callbacks, MTAudioProcessingTapCreationFlags flags)
		{
			if (callbacks == null)
				throw new ArgumentNullException ("callbacks");

			const MTAudioProcessingTapCreationFlags all_flags = MTAudioProcessingTapCreationFlags.PreEffects | MTAudioProcessingTapCreationFlags.PostEffects;
			if ((flags & all_flags) == all_flags)
				throw new ArgumentException ("Only one effect type can be set");

			this.callbacks = callbacks;

			var c = new Callbacks ();
			unsafe {
				if (callbacks.Initialize != null)
					c.init = InitializeProxy;
				if (callbacks.Finalize != null)
					c.finalize = FinalizeProxy;
				if (callbacks.Prepare != null)
					c.prepare = PrepareProxy;
				if (callbacks.Unprepare != null)
					c.unprepare = UnprepareProxy;

				c.process = ProcessProxy;
			}

			// a GCHandle is needed because we do not have an handle before calling MTAudioProcessingTapCreate
			// and that will call the InitializeProxy. So using this (short-lived) GCHandle allow us to find back the
			// original managed instance
			gch = GCHandle.Alloc (this);
			c.clientInfo = (IntPtr)gch;

			var res = MTAudioProcessingTapCreate (IntPtr.Zero, ref c, flags, out handle);

			// we won't need the GCHandle after the Create call
			gch.Free ();

			if (res != 0)
				throw new ArgumentException (res.ToString ());

			lock (handles)
				handles [handle] = this;
		}
Пример #4
0
		extern static /* OSStatus */ MTAudioProcessingTapError MTAudioProcessingTapCreate (
			/* CFAllocatorRef*/ IntPtr allocator, 
			/* const MTAudioProcessingTapCallbacks* */ ref Callbacks callbacks, 
			MTAudioProcessingTapCreationFlags flags,
			/* MTAudioProcessingTapRef* */ out IntPtr tapOut);