private synchronized boolean waitForState(Processor p, int state) { p.addControllerListener(new StateListener()); failed = false; // Call the required method on the processor if (state == Processor.Configured) { p.configure(); } else if (state == Processor.Realized) { p.realize(); } // Wait until we get an event that confirms the // success of the method, or a failure event. // See StateListener inner class while (p.getState() < state && !failed) { synchronized (getStateLock()) { try { getStateLock().wait(); } catch (InterruptedException ie) { return false; } } } if (failed) return false; else return true; }
StateWaiter(Processor p) { this.p = p; p.addControllerListener(this); }
/** * Given an array of input media locators and an output locator, this method will concatenate the * input media files to generate a single concatentated output. */ public boolean doIt(MediaLocator inML[], MediaLocator outML) { // Guess the output content descriptor from the file extension. ContentDescriptor cd; if ((cd = fileExtToCD(outML.getRemainder())) == null) { System.err.println("Couldn't figure out from the file extension the type of output needed!"); return false; } // Build the ProcInfo data structure for each processor. ProcInfo pInfo[] = new ProcInfo[inML.length]; for (int i = 0; i < inML.length; i++) { pInfo[i] = new ProcInfo(); pInfo[i].ml = inML[i]; try { System.err.println("- Create processor for: " + inML[i]); pInfo[i].p = Manager.createProcessor(inML[i]); } catch (Exception e) { System.err.println("Yikes! Cannot create a processor from the given url: " + e); return false; } } // Try to match the tracks from different processors. if (!matchTracks(pInfo, cd)) { System.err.println("Failed to match the tracks."); return false; } // Program each processors to perform the necessary transcoding // to concatenate the tracks. if (!buildTracks(pInfo)) { System.err.println("Failed to build processors for the inputs."); return false; } // Generate a super glue data source from the processors. SuperGlueDataSource ds = new SuperGlueDataSource(pInfo); // Create the processor to generate the final output. Processor p; try { p = Manager.createProcessor(ds); } catch (Exception e) { System.err.println("Failed to create a processor to concatenate the inputs."); return false; } p.addControllerListener(this); // Put the Processor into configured state. if (!waitForState(p, Processor.Configured)) { System.err.println("Failed to configure the processor."); return false; } // Set the output content descriptor on the final processor. System.err.println("- Set output content descriptor to: " + cd); if ((p.setContentDescriptor(cd)) == null) { System.err.println("Failed to set the output content descriptor on the processor."); return false; } // We are done with programming the processor. Let's just // realize it. if (!waitForState(p, Controller.Realized)) { System.err.println("Failed to realize the processor."); return false; } // Now, we'll need to create a DataSink. DataSink dsink; if ((dsink = createDataSink(p, outML)) == null) { System.err.println("Failed to create a DataSink for the given output MediaLocator: " + outML); return false; } dsink.addDataSinkListener(this); fileDone = false; System.err.println("- Start concatenation..."); // OK, we can now start the actual concatenation. try { p.start(); dsink.start(); } catch (IOException e) { System.err.println("IO error during concatenation"); return false; } // Wait for EndOfStream event. waitForFileDone(); // Cleanup. try { dsink.close(); } catch (Exception e) { } p.removeControllerListener(this); System.err.println(" ...done concatenation."); return true; }