def preRun__(self): super().preRun__() # Shmem servers could also be created on-demand for various master processes self.server = ShmemRGBServer( name = self.server_name, n_ringbuffer = self.server_n_ringbuffer, width = self.server_width, height = self.server_height ) self.server.useEventFd(self.event_fd) print("rgbClientSideProcess : using event_fd for serving frames fd=", self.event_fd.getFd())
def c__setMasterProcess(self, ipc_index=None): # get shmem parameters from master process frontend self.ipc_index = ipc_index self.eventfd, self.master_pipe = singleton.ipc.get1(self.ipc_index) # self.n_buffer etc. have been set by a call to c__activate self.server = ShmemRGBServer( name=self.shmem_name_server, n_ringbuffer=self.n_buffer, # size of ring buffer width=self.image_dimensions[0], height=self.image_dimensions[1], verbose=self.shmem_verbose) self.server.useEventFd(self.eventfd) # activate eventfd API singleton.ipc.set(ipc_index)
def test2(): import numpy shmem_name = "kokkelis" n_buffer = 10 image_dimensions = (400, 300) server = ShmemRGBServer( name=shmem_name, n_ringbuffer=n_buffer, # size of ring buffer width=image_dimensions[0], height=image_dimensions[1], verbose=True) p = QShmemProcess("test", n_buffer=n_buffer, image_dimensions=image_dimensions, shmem_verbose=True, shmem_name=shmem_name) p.setDebug() p.start() p.activate() img = numpy.zeros((300, 400, 3), dtype=numpy.uint8) for i in range(5): img[:, :, :] = i server.pushFrame(img, 1, 123) time.sleep(0.2) p.deactivate() for i in range(50): img[:, :, :] = i server.pushFrame(img, 1, 123) # time.sleep(0.2) p.activate() for i in range(15): img[:, :, :] = i server.pushFrame(img, 1, 123) time.sleep(0.1) p.stop()
def test3(): """One client, one master process """ import numpy shmem_name = "kokkelis" n_buffer = 10 image_dimensions = (400, 300) server = ShmemRGBServer( name=shmem_name, n_ringbuffer=n_buffer, # size of ring buffer width=image_dimensions[0], height=image_dimensions[1], verbose=True) p = QShmemClientProcess("test", n_buffer=n_buffer, image_dimensions=image_dimensions, shmem_verbose=True, shmem_name=shmem_name) p.setDebug() p.start() pm = QShmemMasterProcess("master_test") pm.setDebug() pm.start() """ p.activate(n_buffer=n_buffer, image_dimensions=image_dimensions, shmem_name=shmem_name) """ p.activate() img = numpy.zeros((300, 400, 3), dtype=numpy.uint8) for i in range(10): img[:, :, :] = i server.pushFrame(img, 1, 123) time.sleep(0.1) print("\nConnecting master process\n") p.setMasterProcess(pm) for i in range(10): img[:, :, :] = i server.pushFrame(img, 1, 123) time.sleep(0.1) p.unsetMasterProcess(pm) p.stop() pm.stop()
def c__requestQtShmemServer(self, **kwargs): self.logger.debug("shmem server requested") # should be called only after the shmem client has been instantiated self.shmem_name_qt_server = self.shmem_name + "_qt_server" self.qt_server = ShmemRGBServer( name=self.shmem_name_qt_server, n_ringbuffer=self.n_buffer, # size of ring buffer width=self.image_dimensions[0], height=self.image_dimensions[1], verbose=self.shmem_verbose) # inform frontend & widgets that the shmem server is available: self.send_out__( MessageObject( "shmem_server", # this is routed to the qt signal with the same name shmem_name=self.shmem_name_qt_server, shmem_n_buffer=self.n_buffer, width=self.image_dimensions[0], height=self.image_dimensions[1], verbose=self.shmem_verbose))
class RGBClientProcess(RGB24Process): """ Gets RGB24 frames from valkka side, inspects them and then pass them to master processes (i,e different Machine Vision processes) !! Needs to establish an RGB24 shmem server Receives a message from Machine vision process """ def __init__(self, mstimeout = 1000, server_img_width = 100, server_img_height = 100): super().__init__(mstimeout= mstimeout) self.event_fd = reserveEventFd() # event fd for the rgb24 shmem server self.server_name = str(id(self)) self.server_n_ringbuffer = 10 self.server_width = server_img_width self.server_height = server_img_height self.intercom_ipc_index = None # event fd index for sending messages to master process (i,e machine vision process) self.intercom_client = None self.intercom_fd = None def __del__(self): releaseEventFd(self.event_fd) """ BACKEND METHODS Never call these methods from the main python process: they are internal for the multiprocess backend """ def preRun__(self): super().preRun__() # Shmem servers could also be created on-demand for various master processes self.server = ShmemRGBServer( name = self.server_name, n_ringbuffer = self.server_n_ringbuffer, width = self.server_width, height = self.server_height ) self.server.useEventFd(self.event_fd) print("rgbClientSideProcess : using event_fd for serving frames fd=", self.event_fd.getFd()) def postRun__(self): super(RGBClientProcess, self).postRun__() def readPipes__(self, timeout): """ Multiplex all intercom pipes / events This is used by your multiprocess run() method // no need to modify run() method """ rlis = [self.back_pipe] # self.back_pipe is the intercom pipe with the main python process # listen to all rgb frame sources frame_fds = list(self.client_by_fd.keys()) rlis += frame_fds if self.intercom_fd is not None: rlis.append(self.intercom_fd) rs, ws, es = safe_select(rlis, [], [], timeout= timeout) # rs is a list of event file descriptors that have been triggered for fd in rs: # 1. handle the main intercom pipe if fd == self.back_pipe: self.handleBackPipe__(self.back_pipe) # 2. handle frame coming from valkka c++ side if fd in frame_fds: client = self.client_by_fd[fd] index, meta = client.pullFrame() if (index == None): print("weird.. rgb client got none ") else: data = client.shmem_list[index][0:meta.size] data = data.reshape((meta.height, meta.width, 3)) self.handleFrame__(data, meta) # 3. handle message from the master process (i,e machine vision process ) if fd == self.intercom_fd: obj = self.intercom_client.pullObject() self.handleMessage__(obj) def handleFrame__(self, frame, meta): print("ClientProcess: handleFrame__ : got frame", frame.shape, "from slot", meta.slot) """ metadata has the following members : size width height slot mstimeout """ imgblurred = cv2.GaussianBlur(frame, (15, 15), 0) # Lets convert the image to HSV imgHSV = cv2.cvtColor(imgblurred, cv2.COLOR_BGR2HSV) # Define the mask lower_mask_value = [18, 50, 50] upper_mask_value = [36, 255, 255] lower_mask_value = np.array(lower_mask_value, dtype='uint8') upper_mask_value = np.array(upper_mask_value, dtype='uint8') mask = cv2.inRange(imgHSV, lower_mask_value, upper_mask_value) # Count the total number of red pixels ; total number of non zero pixels total_number = cv2.countNonZero(mask) print('total number : ', int(total_number)) if total_number > 500: print("fire detected") # do something with the frame then forward it to the master process (i,e machine vision process ) ## TODO: if the frame is too big, the client will hang -- To deal with later self.server.pushFrame(frame[0:10, 0:10, :], meta.slot, meta.mstimeout) # send message to main process like this # self.send_out__({}) def handleMessage__(self, obj): print("rgbClientSide process : handleMessage__ : got a message from master ",obj) def c__listenIntercom(self, name = None, n_ringbuffer = None, n_bytes = None, ipc_index = None, ): client = ShmemClient( name = name, n_ringbuffer = n_ringbuffer, n_bytes = n_bytes, mstimeout = self.mstimeout ) eventfd = getEventFd(ipc_index) client.useEventFd(eventfd) fd = eventfd.getFd() # self.intercom_client_by_fd[fd] = client #if you would be listening many clients at a time self.intercom_client = client self.intercom_fd = fd def c__dropIntercom(self # ipc_index = None, ): # fd = getFdFromIndex(ipc_index) # self.intercom_client_by_fd.pop(fd) # if you would be listening many clients at a time self.intercom_client = None self.intercom_fd = None """FRONTEND These methods are called by your main python process """ def getRGB24ServerPars(self): pars = { "name": self.server_name, "n_ringbuffer": self.server_n_ringbuffer, "width": self.server_width, "height": self.server_height, "ipc_index": eventFdToIndex(self.event_fd) } print("getRGB24ServerPars:", pars) return pars def listenIntercom(self, name=None, n_ringbuffer=None, n_bytes=None, ipc_index=None ): if self.intercom_ipc_index is not None: print("listenIntercom: already listening to master") return self.sendMessageToBack(MessageObject( "listenIntercom", name=name, n_ringbuffer=n_ringbuffer, n_bytes=n_bytes, ipc_index=ipc_index # event fd index for the intecom channel )) self.intercom_ipc_index = ipc_index def dropIntercom(self): if self.intercom_ipc_index is None: print("dropIntercom: no intercom") return self.sendMessageToBack(MessageObject( "dropIntercom" # ipc_index = ipc_index # event fd index for the intecom channel )) self.intercom_ipc_index = None
def test4(): """Two clients, one master process """ import numpy shmem_name1 = "kokkelis1" n_buffer1 = 10 image_dimensions1 = (400, 300) server1 = ShmemRGBServer( name=shmem_name1, n_ringbuffer=n_buffer1, # size of ring buffer width=image_dimensions1[0], height=image_dimensions1[1], verbose=True) p1 = QShmemClientProcess("test1", n_buffer=n_buffer1, image_dimensions=image_dimensions1, shmem_verbose=True, shmem_name=shmem_name1) shmem_name2 = "kokkelis2" n_buffer2 = 10 image_dimensions2 = (400, 300) server2 = ShmemRGBServer( name=shmem_name2, n_ringbuffer=n_buffer2, # size of ring buffer width=image_dimensions2[0], height=image_dimensions2[1], verbose=True) p2 = QShmemClientProcess("test2", n_buffer=n_buffer2, image_dimensions=image_dimensions2, shmem_verbose=True, shmem_name=shmem_name2) p1.setDebug() p1.start() p2.setDebug() p2.start() pm = QShmemMasterProcess("master_test") pm.setDebug() pm.start() """ p.activate(n_buffer=n_buffer, image_dimensions=image_dimensions, shmem_name=shmem_name) """ p1.activate() p2.activate() img = numpy.zeros((300, 400, 3), dtype=numpy.uint8) for i in range(10): img[:, :, :] = i server1.pushFrame(img, 1, 123) server2.pushFrame(img, 2, 123) time.sleep(0.1) print("\nConnecting master process\n") p1.setMasterProcess(pm) p2.setMasterProcess(pm) for i in range(10): img[:, :, :] = i server1.pushFrame(img, 1, 123) server2.pushFrame(img, 2, 123) time.sleep(0.1) p1.unsetMasterProcess(pm) p2.unsetMasterProcess(pm) p1.stop() p2.stop() pm.stop()
class QShmemClientProcess(QShmemProcess): """Like QShmemProcess, but uses a common master process """ """ def c__setMasterProcess(self, ipc_index = None, n_buffer = None, image_dimensions = None, shmem_name = None): """ def c__setMasterProcess(self, ipc_index=None): # get shmem parameters from master process frontend self.ipc_index = ipc_index self.eventfd, self.master_pipe = singleton.ipc.get1(self.ipc_index) # self.n_buffer etc. have been set by a call to c__activate self.server = ShmemRGBServer( name=self.shmem_name_server, n_ringbuffer=self.n_buffer, # size of ring buffer width=self.image_dimensions[0], height=self.image_dimensions[1], verbose=self.shmem_verbose) self.server.useEventFd(self.eventfd) # activate eventfd API singleton.ipc.set(ipc_index) def c__unsetMasterProcess(self): # singleton.ipc.release(self.ipc_index) # not here self.server = None self.master_pipe = None self.eventfd = None # **** def __init__(self, name="QShmemClientProcess", **kwargs): super().__init__(name=name, **kwargs) self.shmem_name_server = "valkkashmemserver" + str(id(self)) # parameterInitCheck(QShmemClientProcess.parameter_defs, kwargs, self) self.ipc_index = None # used at the frontend self.master_process = None def preRun_(self): self.logger.debug("preRun_") self.c__deactivate() # init variables self.c__unsetMasterProcess() def postRun_(self): """Clear shmem variables """ self.c__deactivate() self.c__unsetMasterProcess() def run(self): self.preRun_() while self.loop: if self.listening: self.cycle_() self.readPipes__(timeout=0) # timeout = 0 == just poll else: self.readPipes__(timeout=self.timeout) # timeout of 1 sec self.postRun_() # indicate front end qt thread to exit self.back_pipe.send(None) self.logger.debug("bye!") def cycle_(self): """Receives frame from the shmem client and sends them for further processing to a master process """ # get rgb frame from the filterchain index, meta = self.client.pullFrame() if (index is None): self.logger.debug("Client timed out..") return self.logger.debug("Client index, size = %s", index) data = self.client.shmem_list[index][0:meta.size] img = data.reshape((meta.height, meta.width, 3)) # forward rgb frame to master process (yolo etc.) self.logger.debug("cycle_: got frame %s", img.shape) if self.server is not None: self.logger.debug("cycle_ : pushing to server") self.server.pushFrame(img, meta.slot, meta.mstimestamp) # receive results from master process message = self.master_pipe.recv() print("reply from master process:", message) # *** frontend *** def setMasterProcess(self, master_process=None): # ipc_index, n_buffer, image_dimensions, shmem_name # TODO self.master_process = master_process self.ipc_index = singleton.ipc.reserve() # first, create the server self.sendMessageToBack( MessageObject("setMasterProcess", ipc_index=self.ipc_index)) # this will create the client: # self.n_buffer etc. have been set by call to self.activate master_process.registerClient(ipc_index=self.ipc_index, n_buffer=self.n_buffer, image_dimensions=self.image_dimensions, shmem_name=self.shmem_name_server) def unsetMasterProcess(self): # , master_process): if self.master_process is None: self.logger.warning("unsetMasterProcess: none set") return self.sendMessageToBack(MessageObject("unsetMasterProcess")) self.master_process.unregisterClient(ipc_index=self.ipc_index) singleton.ipc.release(self.ipc_index) self.ipc_index = None self.master_process = None def requestStop(self): self.unsetMasterProcess() super().requestStop() """