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- # Import required libraries
- import sys
- sys.path.append('../')
- sys.path.append('../source_code')
- import gi
- import configparser
- gi.require_version('Gst', '1.0')
- from gi.repository import GObject, Gst
- from gi.repository import GLib
- from ctypes import *
- import time
- import sys
- import math
- import platform
- from common.bus_call import bus_call
- from common.FPS import GETFPS
- import pyds
- # Define variables to be used later
- fps_streams={}
- PGIE_CLASS_ID_VEHICLE = 0
- PGIE_CLASS_ID_BICYCLE = 1
- PGIE_CLASS_ID_PERSON = 2
- PGIE_CLASS_ID_ROADSIGN = 3
- MUXER_OUTPUT_WIDTH=1920
- MUXER_OUTPUT_HEIGHT=1080
- TILED_OUTPUT_WIDTH=1920
- TILED_OUTPUT_HEIGHT=1080
- OSD_PROCESS_MODE= 0
- OSD_DISPLAY_TEXT= 0
- pgie_classes_str= ["Vehicle", "TwoWheeler", "Person","RoadSign"]
- ################ Three Stream Pipeline ###########
- # Define Input and output Stream information
- num_sources = 3
- INPUT_VIDEO_1 = '/opt/nvidia/deepstream/deepstream-5.0/samples/streams/sample_720p.h264'
- INPUT_VIDEO_2 = '/opt/nvidia/deepstream/deepstream-5.0/samples/streams/sample_720p.h264'
- INPUT_VIDEO_3 = '/opt/nvidia/deepstream/deepstream-5.0/samples/streams/sample_720p.h264'
- # Define variables to be used later
- fps_streams={}
- # Initialise FPS
- for i in range(0,num_sources):
- fps_streams["stream{0}".format(i)]=GETFPS(i)
- # Standard GStreamer initialization
- Gst.init(None)
- # Create gstreamer elements */
- # Create Pipeline element that will form a connection of other elements
- print("Creating Pipeline \n ")
- pipeline = Gst.Pipeline()
- if not pipeline:
- sys.stderr.write(" Unable to create Pipeline \n")
- ## Make Element or Print Error and any other detail
- def make_elm_or_print_err(factoryname, name, printedname, detail=""):
- print("Creating", printedname)
- elm = Gst.ElementFactory.make(factoryname, name)
- if not elm:
- sys.stderr.write("Unable to create " + printedname + " \n")
- if detail:
- sys.stderr.write(detail)
- return elm
-
- # src_pad_buffer_probe
- def src_pad_buffer_probe(pad,info,u_data):
- #Intiallizing object counter with 0.
- obj_counter = {
- PGIE_CLASS_ID_VEHICLE:0,
- PGIE_CLASS_ID_PERSON:0,
- PGIE_CLASS_ID_BICYCLE:0,
- PGIE_CLASS_ID_ROADSIGN:0
- }
- # Set frame_number & rectangles to draw as 0
- frame_number=0
- num_rects=0
-
- gst_buffer = info.get_buffer()
- if not gst_buffer:
- print("Unable to get GstBuffer ")
- return
- # Retrieve batch metadata from the gst_buffer
- # Note that pyds.gst_buffer_get_nvds_batch_meta() expects the
- # C address of gst_buffer as input, which is obtained with hash(gst_buffer)
- batch_meta = pyds.gst_buffer_get_nvds_batch_meta(hash(gst_buffer))
- l_frame = batch_meta.frame_meta_list
- while l_frame is not None:
- try:
- # Note that l_frame.data needs a cast to pyds.NvDsFrameMeta
- frame_meta = pyds.NvDsFrameMeta.cast(l_frame.data)
- except StopIteration:
- break
-
- # Get frame number , number of rectables to draw and object metadata
- frame_number=frame_meta.frame_num
- num_rects = frame_meta.num_obj_meta
- l_obj=frame_meta.obj_meta_list
-
- while l_obj is not None:
- try:
- # Casting l_obj.data to pyds.NvDsObjectMeta
- obj_meta=pyds.NvDsObjectMeta.cast(l_obj.data)
- except StopIteration:
- break
- # Increment Object class by 1
- obj_counter[obj_meta.class_id] += 1
- try:
- l_obj=l_obj.next
- except StopIteration:
- break
-
- print("Frame Number={} Number of Objects={} Vehicle_count={} Person_count={}".format(frame_number, num_rects, obj_counter[PGIE_CLASS_ID_VEHICLE], obj_counter[PGIE_CLASS_ID_PERSON]))
-
- # FPS Probe
- fps_streams["stream{0}".format(frame_meta.pad_index)].get_fps()
- try:
- l_frame=l_frame.next
- except StopIteration:
- break
- return Gst.PadProbeReturn.OK
- ########### Create Elements required for the Pipeline ###########
- ######### Defining Stream 1
- # Source element for reading from the file
- source1 = make_elm_or_print_err("filesrc", "file-source-1",'file-source-1')
- # Since the data format in the input file is elementary h264 stream,we need a h264parser
- h264parser1 = make_elm_or_print_err("h264parse", "h264-parser-1","h264-parser-1")
- # Use nvdec_h264 for hardware accelerated decode on GPU
- decoder1 = make_elm_or_print_err("nvv4l2decoder", "nvv4l2-decoder-1","nvv4l2-decoder-1")
-
- ##########
- ########## Defining Stream 2
- # Source element for reading from the file
- source2 = make_elm_or_print_err("filesrc", "file-source-2","file-source-2")
- # Since the data format in the input file is elementary h264 stream, we need a h264parser
- h264parser2 = make_elm_or_print_err("h264parse", "h264-parser-2", "h264-parser-2")
- # Use nvdec_h264 for hardware accelerated decode on GPU
- decoder2 = make_elm_or_print_err("nvv4l2decoder", "nvv4l2-decoder-2","nvv4l2-decoder-2")
- ###########
- ########## Defining Stream 3
- # Source element for reading from the file
- source3 = make_elm_or_print_err("filesrc", "file-source-3","file-source-3")
- # Since the data format in the input file is elementary h264 stream, we need a h264parser
- h264parser3 = make_elm_or_print_err("h264parse", "h264-parser-3", "h264-parser-3")
- # Use nvdec_h264 for hardware accelerated decode on GPU
- decoder3 = make_elm_or_print_err("nvv4l2decoder", "nvv4l2-decoder-3","nvv4l2-decoder-3")
- ###########
-
- # Create nvstreammux instance to form batches from one or more sources.
- streammux = make_elm_or_print_err("nvstreammux", "Stream-muxer","Stream-muxer")
- # Use nvinfer to run inferencing on decoder's output, behaviour of inferencing is set through config file
- pgie = make_elm_or_print_err("nvinfer", "primary-inference" ,"pgie")
- # Use nvtracker to give objects unique-ids
- tracker = make_elm_or_print_err("nvtracker", "tracker",'tracker')
- # Seconday inference for Finding Car Color
- sgie1 = make_elm_or_print_err("nvinfer", "secondary1-nvinference-engine",'sgie1')
- # Seconday inference for Finding Car Make
- sgie2 = make_elm_or_print_err("nvinfer", "secondary2-nvinference-engine",'sgie2')
- # # Seconday inference for Finding Car Type
- sgie3 = make_elm_or_print_err("nvinfer", "secondary3-nvinference-engine",'sgie3')
- # Create Sink for storing the output
- fakesink = make_elm_or_print_err("fakesink", "fakesink", "Sink")
- # Queues to enable buffering
- queue1=make_elm_or_print_err("queue","queue1","queue1")
- queue2=make_elm_or_print_err("queue","queue2","queue2")
- queue3=make_elm_or_print_err("queue","queue3","queue3")
- queue4=make_elm_or_print_err("queue","queue4","queue4")
- queue5=make_elm_or_print_err("queue","queue5","queue5")
- queue6=make_elm_or_print_err("queue","queue6","queue6")
- ############ Set properties for the Elements ############
- # Set Input Video files
- source1.set_property('location', INPUT_VIDEO_1)
- source2.set_property('location', INPUT_VIDEO_2)
- source3.set_property('location', INPUT_VIDEO_3)
- # Set Input Width , Height and Batch Size
- streammux.set_property('width', 1920)
- streammux.set_property('height', 1080)
- streammux.set_property('batch-size', 1)
- # Timeout in microseconds to wait after the first buffer is available
- # to push the batch even if a complete batch is not formed.
- streammux.set_property('batched-push-timeout', 4000000)
- # Set configuration file for nvinfer
- # Set Congifuration file for nvinfer
- pgie.set_property('config-file-path', "../source_code/N1/dstest4_pgie_config.txt")
- sgie1.set_property('config-file-path', "../source_code/N1/dstest4_sgie1_config.txt")
- sgie2.set_property('config-file-path', "../source_code/N1/dstest4_sgie2_config.txt")
- sgie3.set_property('config-file-path', "../source_code/N1/dstest4_sgie3_config.txt")
- #Set properties of tracker from tracker_config
- config = configparser.ConfigParser()
- config.read('../source_code/N1/dstest4_tracker_config.txt')
- config.sections()
- for key in config['tracker']:
- if key == 'tracker-width' :
- tracker_width = config.getint('tracker', key)
- tracker.set_property('tracker-width', tracker_width)
- if key == 'tracker-height' :
- tracker_height = config.getint('tracker', key)
- tracker.set_property('tracker-height', tracker_height)
- if key == 'gpu-id' :
- tracker_gpu_id = config.getint('tracker', key)
- tracker.set_property('gpu_id', tracker_gpu_id)
- if key == 'll-lib-file' :
- tracker_ll_lib_file = config.get('tracker', key)
- tracker.set_property('ll-lib-file', tracker_ll_lib_file)
- if key == 'll-config-file' :
- tracker_ll_config_file = config.get('tracker', key)
- tracker.set_property('ll-config-file', tracker_ll_config_file)
- if key == 'enable-batch-process' :
- tracker_enable_batch_process = config.getint('tracker', key)
- tracker.set_property('enable_batch_process', tracker_enable_batch_process)
- # Fake sink properties
- fakesink.set_property("sync", 0)
- fakesink.set_property("async", 0)
- ########## Add and Link ELements in the Pipeline ##########
- print("Adding elements to Pipeline \n")
- pipeline.add(source1)
- pipeline.add(h264parser1)
- pipeline.add(decoder1)
- pipeline.add(source2)
- pipeline.add(h264parser2)
- pipeline.add(decoder2)
- pipeline.add(source3)
- pipeline.add(h264parser3)
- pipeline.add(decoder3)
- pipeline.add(streammux)
- pipeline.add(queue1)
- pipeline.add(pgie)
- pipeline.add(queue2)
- pipeline.add(tracker)
- pipeline.add(queue3)
- pipeline.add(sgie1)
- pipeline.add(queue4)
- pipeline.add(sgie2)
- pipeline.add(queue5)
- pipeline.add(sgie3)
- pipeline.add(queue6)
- pipeline.add(fakesink)
- print("Linking elements in the Pipeline \n")
- source1.link(h264parser1)
- h264parser1.link(decoder1)
- ###### Create Sink pad and connect to decoder's source pad
- sinkpad1 = streammux.get_request_pad("sink_0")
- if not sinkpad1:
- sys.stderr.write(" Unable to get the sink pad of streammux \n")
-
- srcpad1 = decoder1.get_static_pad("src")
- if not srcpad1:
- sys.stderr.write(" Unable to get source pad of decoder \n")
-
- srcpad1.link(sinkpad1)
- ######
- ###### Create Sink pad and connect to decoder's source pad
- source2.link(h264parser2)
- h264parser2.link(decoder2)
- sinkpad2 = streammux.get_request_pad("sink_1")
- if not sinkpad2:
- sys.stderr.write(" Unable to get the sink pad of streammux \n")
-
- srcpad2 = decoder2.get_static_pad("src")
- if not srcpad2:
- sys.stderr.write(" Unable to get source pad of decoder \n")
-
- srcpad2.link(sinkpad2)
- ######
- ###### Create Sink pad and connect to decoder's source pad
- source3.link(h264parser3)
- h264parser3.link(decoder3)
- sinkpad3 = streammux.get_request_pad("sink_2")
- if not sinkpad2:
- sys.stderr.write(" Unable to get the sink pad of streammux \n")
-
- srcpad3 = decoder3.get_static_pad("src")
- if not srcpad3:
- sys.stderr.write(" Unable to get source pad of decoder \n")
-
- srcpad3.link(sinkpad3)
- ######
- streammux.link(pgie)
- # queue1.link(pgie)
- pgie.link(tracker)
- tracker.link(sgie1)
- # queue3.link(sgie1)
- sgie1.link(sgie2)
- # queue4.link(sgie2)
- sgie2.link(sgie3)
- # queue5.link(sgie3)
- sgie3.link(fakesink)
- # queue6.link(fakesink)
- # create an event loop and feed gstreamer bus mesages to it
- loop = GLib.MainLoop()
- bus = pipeline.get_bus()
- bus.add_signal_watch()
- bus.connect ("message", bus_call, loop)
- print("Added and Linked elements to pipeline")
- src_pad=sgie3.get_static_pad("src")
- if not src_pad:
- sys.stderr.write(" Unable to get src pad \n")
- else:
- src_pad.add_probe(Gst.PadProbeType.BUFFER, src_pad_buffer_probe, 0)
-
- # List the sources
- print("Now playing...")
- print("Starting pipeline \n")
- # start play back and listed to events
- pipeline.set_state(Gst.State.PLAYING)
- start_time = time.time()
- try:
- loop.run()
- except:
- pass
- # cleanup
- print("Exiting app\n")
- pipeline.set_state(Gst.State.NULL)
- print("--- %s seconds ---" % (time.time() - start_time))
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