Ejemplo n.º 1
0
    void testEnableDisable()
    {
        MpFlowGraphBase*    pFlowGraph = 0;
        MpTestResource* pResource1 = 0;
        MpTestResource* pResource2 = 0;
        OsStatus        res;

        pFlowGraph = new MpFlowGraphBase(80, 8000);
        pResource1 = new MpTestResource("test1", 2, 2, 2, 2);
        pResource2 = new MpTestResource("test2", 2, 2, 2, 2);

        res = pFlowGraph->addResource(*pResource1);
        CPPUNIT_ASSERT(res == OS_SUCCESS);

        res = pFlowGraph->addResource(*pResource2);
        CPPUNIT_ASSERT(res == OS_SUCCESS);

        CPPUNIT_ASSERT((pResource1->isEnabled() == FALSE) &&
            (pResource2->isEnabled() == FALSE));

        // enable all of the resources in the flow graph
        res = pFlowGraph->enable();
        CPPUNIT_ASSERT(res == OS_SUCCESS);

        CPPUNIT_ASSERT(pResource1->isEnabled() && pResource2->isEnabled());

        // now disable all of the the resources in the flow graph
        res = pFlowGraph->disable();
        CPPUNIT_ASSERT(res == OS_SUCCESS);

        CPPUNIT_ASSERT((pResource1->isEnabled() == FALSE) &&
                       (pResource2->isEnabled() == FALSE));

        delete pFlowGraph;
    }
Ejemplo n.º 2
0
    /**
     * FAILS : Segmention fault
     */
    void testProcessNextFrame()
    {
       // Set up a flow graph with two resources (resource1 and resource2). Both
       // resources have 4 inputs and 4 outputs.  All four outputs of resource1
       // are connected to the corresponding inputs of resource2.  The resources
       // are further configured to behave as follows for each frame processing
       // interval.
       //
       // Resource 1:                   |   Resource 2:
       //   Creates output buffers on   |     Processes input buffers received on
       //   output ports 0, 2 and 3.    |     input ports 0, 1 and 2.
       //
       //   resource1   Output 0        -->   Input 0
       //   ignores     Output 1 (NULL) -->   Input 1
       //   its         Output 2        -->   Input 2
       //   inputs      Output 3        -->   Input 3 (not processed)
       //
       // The net result is that each frame time, resource2 should receive
       // non-NULL buffers on input ports 0, 2 and 3.  Since resource2 is not
       // processing input buffers on input port 3, for each frame, the old
       // buffer on input port 3 will be discarded to make way for a new buffer.
        MpFlowGraphBase*    pFlowGraph = 0;
        MpTestResource* pResource1 = 0;
        MpTestResource* pResource2 = 0;
        OsStatus        res;

        mpStartUp(8000, 80, 6*10, 0);

        pFlowGraph = new MpFlowGraphBase(80, 8000);
        pResource1 = new MpTestResource("resource1", 4, 4, 4, 4);
        pResource2 = new MpTestResource("resource2", 4, 4, 4, 4);

        res = pFlowGraph->addResource(*pResource1);
        CPPUNIT_ASSERT(res == OS_SUCCESS);

        res = pFlowGraph->addResource(*pResource2);
        CPPUNIT_ASSERT(res == OS_SUCCESS);

        res = pFlowGraph->addLink(*pResource1, 0, *pResource2, 0);
        CPPUNIT_ASSERT(res == OS_SUCCESS);

        res = pFlowGraph->addLink(*pResource1, 1, *pResource2, 1);
        CPPUNIT_ASSERT(res == OS_SUCCESS);

        res = pFlowGraph->addLink(*pResource1, 2, *pResource2, 2);
        CPPUNIT_ASSERT(res == OS_SUCCESS);

        res = pFlowGraph->addLink(*pResource1, 3, *pResource2, 3);
        CPPUNIT_ASSERT(res == OS_SUCCESS);

        // For resource1, create new buffers on output ports 0, 2 and 3 and
        // ignore all input buffers (Note: there shouldn't be any)
        pResource1->setGenOutBufMask(0xd);
        pResource1->setProcessInBufMask(0x0);

        // For resource2, process input buffers that arrive input ports 0, 1 and 2.
        pResource2->setGenOutBufMask(0x0);
        pResource2->setProcessInBufMask(0x7);

        CPPUNIT_ASSERT(pResource1->numFramesProcessed() == 0);
        CPPUNIT_ASSERT(pResource2->numFramesProcessed() == 0);

        // Enable the flow graph
        res = pFlowGraph->enable();
        CPPUNIT_ASSERT(res == OS_SUCCESS);

        // Start the flow graph
        res = pFlowGraph->start();
        CPPUNIT_ASSERT(res == OS_SUCCESS);

        // Process two frames
        res = pFlowGraph->processNextFrame();
        CPPUNIT_ASSERT(res == OS_SUCCESS);
        res = pFlowGraph->processNextFrame();
        CPPUNIT_ASSERT(res == OS_SUCCESS);

        for (int i = 0; i < 3; i++)
        {
            CPPUNIT_ASSERT((pResource1->mLastDoProcessArgs.inBufs[i]  == NULL) &&
                           (pResource1->mLastDoProcessArgs.outBufs[i] == NULL) &&
                           (pResource2->mLastDoProcessArgs.inBufs[i] == NULL) &&
                           (pResource2->mLastDoProcessArgs.outBufs[i] == NULL));
        }
        CPPUNIT_ASSERT((pResource1->numFramesProcessed() == 2) &&
                       (pResource1->mLastDoProcessArgs.inBufsSize == 4) &&
                       (pResource1->mLastDoProcessArgs.outBufsSize == 4) &&
                       (pResource2->numFramesProcessed() == 2));

        // Stop the flow graph
        res = pFlowGraph->stop();
        CPPUNIT_ASSERT(res == OS_SUCCESS);

        // Request processing of another frame so that the STOP_FLOWGRAPH
        // message gets handled
        res = pFlowGraph->processNextFrame();
        CPPUNIT_ASSERT(res == OS_SUCCESS);

        delete pFlowGraph;
    }